diff --git a/DISO/dislocation-ontology.jsonld b/DISO/dislocation-ontology.jsonld index a57c2b7..41f4fc9 100644 --- a/DISO/dislocation-ontology.jsonld +++ b/DISO/dislocation-ontology.jsonld @@ -1,286 +1,190 @@ [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#familyPlaneMillerIndice", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#DatatypeProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "The segment is a part of a line bounded by two distinct end points and may contain points on the line between its endpoints." - } - ], - "http://www.w3.org/2000/01/rdf-schema#label": [ - { - "@language": "en", - "@value": "Segment" + "@value": "familyPlaneMillerIndice represents a set of Miller indice of lattice plane in string." } ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ - { - "@id": "_:N91cfed63eac94f2e81c2d077c5e1d7bf" - }, - { - "@id": "_:N7b4f7dbd2d2c4f25846efb4845aaf7ff" - }, + "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "_:N557f07a0608442cdb9ecd98d8ac00d95" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalPlane" } - ] - }, - { - "@id": "_:N91cfed63eac94f2e81c2d077c5e1d7bf", - "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" + "@language": "en", + "@value": "family plane miller indice" } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasEndNode" + "@id": "http://www.w3.org/2001/XMLSchema#string" } ] }, { - "@id": "_:N7b4f7dbd2d2c4f25846efb4845aaf7ff", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" - } - ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "@language": "de", + "@value": "Der Gitterpunkt ist der Punkt, an dem sich ein Atom oder ein Molekül befindet." + }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasStartNode" + "@language": "en", + "@value": "Lattice point is the point where atom(s) or molecule(s) is located." } - ] - }, - { - "@id": "_:N557f07a0608442cdb9ecd98d8ac00d95", - "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" + "@language": "en", + "@value": "Lattice Point" + }, + { + "@language": "de", + "@value": "der Gitterpunkt" } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#isSegmentOf" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Point" } ] }, { - "@id": "http://qudt.org/schema/qudt/description", - "@type": [ - "http://www.w3.org/2002/07/owl#AnnotationProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#VectorOrigin", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#ScrewDislocation", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "A fixed point that is needed by the vector to identify other points in the space relative to its origin." + "@value": "A dislocation that has a line sense parallel to its Burgers vector." + }, + { + "@language": "de", + "@value": "Eine Versetzung, die Burgersvektor und Versetzungslinie liegen parallel." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@language": "de", - "@value": "Ursprung" + "@language": "en", + "@value": "Screw Dislocation" }, { - "@language": "en", - "@value": "Vector Origin" + "@language": "de", + "@value": "die Schraubenversetzung" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Point" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#observedBy", + "@id": "http://purl.org/dc/terms/creator", + "@type": [ + "http://www.w3.org/2002/07/owl#AnnotationProperty" + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasBasis", + "@type": [ + "http://www.w3.org/2002/07/owl#ObjectProperty" + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasNode", "@type": [ "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "observedBy represents the relationship between dislocation and microscopy techniques, e.g., TEM, FIM, etc." + "@value": "hasNode represents the relationship between segment and node." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "observed by" + "@value": "has node" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "_:Nbb7a09c4abb6498f8fb870010d2cba00" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" } ] }, { - "@id": "_:Nbb7a09c4abb6498f8fb870010d2cba00", + "@id": "http://qudt.org/schema/qudt/Unit", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#unionOf": [ + "http://qudt.org/schema/qudt/description": [ { - "@list": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FieldIonMicroscopy" - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#TransmissionElectronMicroscopy" - } - ] + "@type": "http://www.w3.org/1999/02/22-rdf-syntax-ns#HTML", + "@value": "A unit of measure, or unit, is a particular quantity value that has been chosen as a scale for measuring other quantities the same kind (more generally of equivalent dimension). For example, the meter is a quantity of length that has been rigorously defined and standardized by the BIPM (International Board of Weights and Measures). Any measurement of the length can be expressed as a number multiplied by the unit meter. More formally, the value of a physical quantity Q with respect to a unit (U) is expressed as the scalar multiple of a real number (n) and U, as \\(Q = nU\\)." } - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineSense", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2000/01/rdf-schema#isDefinedBy": [ { - "@language": "en", - "@value": "A sense that characterizes a directed line, i.e., it has a start and an end." + "@id": "http://qudt.org/2.0/schema/qudt" + }, + { + "@id": "http://qudt.org/schema/qudt" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@language": "en", - "@value": "Line Sense" + "@value": "Unit" } ] }, { - "@id": "http://purl.org/dc/terms/title", - "@type": [ - "http://www.w3.org/2002/07/owl#AnnotationProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#VectorComponentOfBasis", + "@id": "https://w3id.org/mdo/structure/CoordinateVector", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ - { - "@language": "en", - "@value": "Vector components/vector coordinates of particular basis. It has relation to a specific basis." - } - ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Vector Component of Basis" + "@value": "Coordinate Vector" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "http://qudt.org/schema/qudt/Quantity" + "@id": "_:N4740549463254bf19a21678a90f3ee98" }, { - "@id": "_:N6f88757425a44d51b8a715a3121e2880" + "@id": "_:Nf691d0eb07f840a69f872560868e21bb" }, { - "@id": "_:Nc86d0d331c0740329f47f7274b79fbd3" - } - ] - }, - { - "@id": "_:N6f88757425a44d51b8a715a3121e2880", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" - ], - "http://www.w3.org/2002/07/owl#intersectionOf": [ - { - "@list": [ - { - "@id": "_:Na983ec5cb7394273a6eac529645feedd" - }, - { - "@id": "_:N8c4ab711ca8840618bf8b6e98ca032d6" - } - ] - } - ] - }, - { - "@id": "_:Na983ec5cb7394273a6eac529645feedd", - "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" - ], - "http://www.w3.org/2002/07/owl#onProperty": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasBasis" - } - ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ - { - "@id": "https://w3id.org/mdo/structure/Basis" - } - ] - }, - { - "@id": "_:N8c4ab711ca8840618bf8b6e98ca032d6", - "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" - ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ - { - "@id": "https://w3id.org/mdo/structure/Basis" - } - ], - "http://www.w3.org/2002/07/owl#onProperty": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasBasis" + "@id": "_:N30c92f62739947e8a41cb92e9e674ebe" } - ] - }, - { - "@id": "_:Nc86d0d331c0740329f47f7274b79fbd3", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#intersectionOf": [ + "http://www.w3.org/2004/02/skos/core#defintion": [ { - "@list": [ - { - "@id": "_:Nf5de547810a641f180660c662792bfc4" - }, - { - "@id": "_:N9976d7039dce4f38933f94dd509ba170" - }, - { - "@id": "_:Nb8f737636b0f42d7a1ba0dbedc700a99" - } - ] + "@language": "en", + "@value": "A coordinate vector according to standard basis, i.e., e_x (1, 0, 0), e_y(0, 1, 0), and e_z (0, 0, 1)." } ] }, { - "@id": "_:Nf5de547810a641f180660c662792bfc4", + "@id": "_:N4740549463254bf19a21678a90f3ee98", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], @@ -291,7 +195,7 @@ ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#firstAxisComponent" + "@id": "https://w3id.org/mdo/structure/X_axisCoordinate" } ], "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ @@ -302,7 +206,7 @@ ] }, { - "@id": "_:N9976d7039dce4f38933f94dd509ba170", + "@id": "_:Nf691d0eb07f840a69f872560868e21bb", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], @@ -313,7 +217,7 @@ ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#secondAxisComponent" + "@id": "https://w3id.org/mdo/structure/Y_axisCoordinate" } ], "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ @@ -324,7 +228,7 @@ ] }, { - "@id": "_:Nb8f737636b0f42d7a1ba0dbedc700a99", + "@id": "_:N30c92f62739947e8a41cb92e9e674ebe", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], @@ -335,7 +239,7 @@ ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#thirdAxisComponent" + "@id": "https://w3id.org/mdo/structure/Z_axisCoordinate" } ], "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ @@ -346,393 +250,361 @@ ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/cdo#CrystallographicDefect", + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasPositionVector", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "The crystallographic defect is a lattice irregularity that has one or more dimensions on the order of an atomic diameter." + "@value": "hasPositionVector represents the relationship between entity and position vector." + } + ], + "http://www.w3.org/2000/01/rdf-schema#domain": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Point" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Crystallographic Defect" + "@value": "has position vector" + } + ], + "http://www.w3.org/2000/01/rdf-schema#range": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#PositionVector" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasBasis", - "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ + { + "@language": "de", + "@value": "Das Segment ist ein Teil einer Linie, der von zwei bestimmten Endpunkten begrenzt wird und Punkte auf der Linie zwischen den Endpunkten enthalten kann." + }, { "@language": "en", - "@value": "The lattice plane forms an infinitely stretched plane (characterized through a plane normal) that cuts through lattice points such that, again, a regular arrangement of lattice points in the plane occurs." + "@value": "The segment is a part of a line bounded by two distinct end points and may contain points on the line between its endpoints." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Lattice Plane" - } - ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalPlane" + "@value": "Segment" }, { - "@id": "_:Nc60fccdc41884608924ded5102295d1a" - }, + "@language": "de", + "@value": "die Strecke" + } + ], + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "_:N2e1e5c0b965d421a9cf8a7b88c139932" + "@id": "_:N26035516785b48dcbfb5f44642a04d7f" }, { - "@id": "_:N8f0e0f529d14435686aebbcb9b1bf538" + "@id": "_:Nb607cd60f6be46268f33f8fdbc318b1e" }, { - "@id": "_:N1e3797178e6041a986e1b27fb6acf9e4" - } - ] - }, - { - "@id": "_:Nc60fccdc41884608924ded5102295d1a", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" - ], - "http://www.w3.org/2002/07/owl#intersectionOf": [ - { - "@list": [ - { - "@id": "_:N35f079addcd640deb8c35928eeefbb57" - }, - { - "@id": "_:N50aad53684ce4467b9c0bc10d7bd170d" - } - ] + "@id": "_:Nbec831869f0843a5b1f68c9c6dcb145e" } ] }, { - "@id": "_:N35f079addcd640deb8c35928eeefbb57", + "@id": "_:N26035516785b48dcbfb5f44642a04d7f", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasEndNode" } ] }, { - "@id": "_:N50aad53684ce4467b9c0bc10d7bd170d", + "@id": "_:Nb607cd60f6be46268f33f8fdbc318b1e", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" - } - ] - }, - { - "@id": "_:N2e1e5c0b965d421a9cf8a7b88c139932", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" - ], - "http://www.w3.org/2002/07/owl#intersectionOf": [ - { - "@list": [ - { - "@id": "_:N5dfce0c22910490fbb59917bd7a6208e" - }, - { - "@id": "_:N6b47031010794a65b1dc3ad2814e599b" - } - ] + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasStartNode" } ] }, { - "@id": "_:N5dfce0c22910490fbb59917bd7a6208e", + "@id": "_:Nbec831869f0843a5b1f68c9c6dcb145e", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#isSegmentOf" } ] }, { - "@id": "_:N6b47031010794a65b1dc3ad2814e599b", + "@id": "http://purl.org/dc/terms/title", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" - ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" - } - ], - "http://www.w3.org/2002/07/owl#onProperty": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" - } + "http://www.w3.org/2002/07/owl#AnnotationProperty" ] }, { - "@id": "_:N8f0e0f529d14435686aebbcb9b1bf538", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasFamilyCrystalPlane", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" - ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#VectorOrigin" - } + "http://www.w3.org/2002/07/owl#ObjectProperty" ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasVectorOrigin" + "@language": "en", + "@value": "hasFamilyCrystalPlane represents the relationship between the lattice plane and the family of crystal planes." } - ] - }, - { - "@id": "_:N1e3797178e6041a986e1b27fb6acf9e4", - "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#onDataRange": [ + "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "http://www.w3.org/2001/XMLSchema#string" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#planeMillerIndice" + "@language": "en", + "@value": "has family crystal plane" } ], - "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", - "@value": "1" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalPlane" } ] }, { - "@id": "http://qudt.org/schema/qudt/Quantity", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://qudt.org/schema/qudt/description": [ - { - "@type": "http://www.w3.org/1999/02/22-rdf-syntax-ns#HTML", - "@value": "

A quantity is the measurement of an observable property of a particular object, event, or physical system. A quantity is always associated with the context of measurement (i.e. the thing measured, the measured value, the accuracy of measurement, etc.) whereas the underlying quantity kind is independent of any particular measurement. Thus, length is a quantity kind while the height of a rocket is a specific quantity of length; its magnitude that may be expressed in meters, feet, inches, etc. Examples of physical quantities include physical constants, such as the speed of light in a vacuum, Planck's constant, the electric permittivity of free space, and the fine structure constant.

\n\n

In other words, quantities are quantifiable aspects of the world, such as time, distance, velocity, mass, momentum, energy, and weight, and units are used to describe their measure. Many of which are related to each other by various physical laws, and as a result the units of some of the quantities can be expressed as products (or ratios) of powers of other units (e.g., momentum is mass times velocity and velocity is measured in distance divided by time). These relationships are discussed in dimensional analysis. Those that cannot be so expressed can be regarded as "fundamental" in this sense.

\n

A quantity is distinguished from a "quantity kind" in that the former carries a value and the latter is a type specifier.

" - } - ], - "http://www.w3.org/2000/01/rdf-schema#isDefinedBy": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "http://qudt.org/2.0/schema/qudt" + "@language": "de", + "@value": "Die numerische Darstellung der Versetzungslinie, die in die Anzahl der Segmente diskretisiert ist." }, { - "@id": "http://qudt.org/schema/qudt" + "@language": "en", + "@value": "The numerical representation of the dislocation line that is discretized into the number of segments." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@value": "Quantity" + "@language": "en", + "@value": "Discretized Line" + }, + { + "@language": "de", + "@value": "die Diskretisierte Linie" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "_:N731da5f63d884bbc8054a7a7882c7a21" + "@id": "_:N19873cefc9544b90b4f34d3fefd9dff3" }, { - "@id": "_:N7bda779e7dda4c1eb04293f66347b776" + "@id": "_:N1f69bec066ab485f82fba109a588b433" + }, + { + "@id": "_:N18d278094cb8403d89834c2b467e778e" + } + ], + "http://www.w3.org/2002/07/owl#disjointWith": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line" } ] }, { - "@id": "_:N731da5f63d884bbc8054a7a7882c7a21", + "@id": "_:N19873cefc9544b90b4f34d3fefd9dff3", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "http://qudt.org/schema/qudt/QuantityKind" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "http://qudt.org/schema/qudt/hasQuantityKind" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSegment" } ] }, { - "@id": "_:N7bda779e7dda4c1eb04293f66347b776", + "@id": "_:N1f69bec066ab485f82fba109a588b433", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "http://qudt.org/schema/qudt/QuantityValue" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#ShapeFunction" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "http://qudt.org/schema/qudt/quantityValue" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasShapeFunction" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FieldIonMicroscopy", + "@id": "_:N18d278094cb8403d89834c2b467e778e", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#onDataRange": [ { - "@language": "en", - "@value": "Field Ion Microscopy (FIM) is a microscopy technique that can be used to image the arrangement of atoms." + "@id": "http://www.w3.org/2001/XMLSchema#double" } ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "Field Ion Microscopy" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#slipArea" } ], - "http://www.w3.org/2002/07/owl#disjointWith": [ + "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#TransmissionElectronMicroscopy" + "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", + "@value": "1" } ] }, { - "@id": "http://qudt.org/schema/qudt/hasQuantityKind", - "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasEndNode", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#observedBy", "@type": [ "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "Sub-property of hasNode that relates the segment with the end node." + "@value": "observedBy represents the relationship between dislocation and microscopy techniques, e.g., TEM, FIM, etc." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has end node" + "@value": "observed by" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" + "@id": "_:Ncd904505f37b40ccaeeec27320fe029e" } + ] + }, + { + "@id": "_:Ncd904505f37b40ccaeeec27320fe029e", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ + "http://www.w3.org/2002/07/owl#unionOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasNode" + "@list": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FieldIonMicroscopy" + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#TransmissionElectronMicroscopy" + } + ] } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#BurgersVector", + "@id": "https://w3id.org/mdo/structure/X_axisCoordinate", + "@type": [ + "http://www.w3.org/2002/07/owl#DatatypeProperty" + ] + }, + { + "@id": "http://qudt.org/schema/qudt/QuantityKind", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://qudt.org/schema/qudt/description": [ { - "@language": "en", - "@value": "An elementary unit (length order of lattice parameter) of lattice translation. The basic notion of the Burgers vector comes from the closure failure of an initially perfect lattice due to the existence of dislocation. The magnitude and direction of closure failure are characterized by the Burgers vector." + "@type": "http://www.w3.org/1999/02/22-rdf-syntax-ns#HTML", + "@value": "A Quantity Kind is any observable property that can be measured and quantified numerically. Familiar examples include physical properties such as length, mass, time, force, energy, power, electric charge, etc. Less familiar examples include currency, interest rate, price to earning ratio, and information capacity." } ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2000/01/rdf-schema#isDefinedBy": [ { - "@language": "en", - "@value": "Burgers Vector" + "@id": "http://qudt.org/2.0/schema/qudt" + }, + { + "@id": "http://qudt.org/schema/qudt" } ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Vector" + "@value": "Quantity Kind" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasSecondAxisVector", + "@id": "http://www.w3.org/1999/02/22-rdf-syntax-ns#HTML", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2000/01/rdf-schema#Datatype" ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipDirection", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePlane", "@type": [ "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasSlipDirection represents the relationship between the slip plane or slip system with the slip direction." + "@value": "hasLatticePlane represents the relationship between a lattice and lattice planes." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "_:N351157f6253341e5aa463be57d4f2d8c" + "@id": "_:Nc91642c067fb44eea2085a7c0f41c44d" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has slip direction" + "@value": "has lattice plane" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection" - } - ], - "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" } ] }, { - "@id": "_:N351157f6253341e5aa463be57d4f2d8c", + "@id": "_:Nc91642c067fb44eea2085a7c0f41c44d", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], @@ -740,245 +612,321 @@ { "@list": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#CrystalStructure" }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Lattice" } ] } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasShapeFunction", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#directionMillerIndice", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#DatatypeProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasShapeFunction represents the relationship between discretized line and shape function." + "@value": "directionMillerIndice represents Miller indice of lattice direction in string." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" + "@id": "_:N2baa31d99ddf41f78eb0fc370e9e6c48" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has shape function" + "@value": "direction miller indice" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#ShapeFunction" + "@id": "http://www.w3.org/2001/XMLSchema#string" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#TransmissionElectronMicroscopy", + "@id": "_:N2baa31d99ddf41f78eb0fc370e9e6c48", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ - { - "@language": "en", - "@value": "Transmission electron microscopy (TEM) is a microscopy technique in which a beam of electrons is transmitted through a specimen to form an image. The specimen is often an ultrathin section less than 100 nm thick." - } - ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#unionOf": [ { - "@language": "en", - "@value": "Transmission Electron Microscopy" + "@list": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" + } + ] } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#secondAxisComponent", + "@id": "http://qudt.org/schema/qudt/hasQuantityKind", "@type": [ - "http://www.w3.org/2002/07/owl#DatatypeProperty" + "http://www.w3.org/2002/07/owl#ObjectProperty" ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlane", + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasThirdAxisVector", + "@type": [ + "http://www.w3.org/2002/07/owl#ObjectProperty" + ] + }, + { + "@id": "http://purl.org/dc/terms/license", + "@type": [ + "http://www.w3.org/2002/07/owl#AnnotationProperty" + ] + }, + { + "@id": "http://www.w3.org/2004/02/skos/core#defintion", + "@type": [ + "http://www.w3.org/2002/07/owl#AnnotationProperty" + ] + }, + { + "@id": "http://purl.org/vocab/vann/preferredNamespacePrefix", + "@type": [ + "http://www.w3.org/2002/07/owl#AnnotationProperty" + ] + }, + { + "@id": "http://purl.org/dc/terms/contributor", + "@type": [ + "http://www.w3.org/2002/07/owl#AnnotationProperty" + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasBurgersVector", "@type": [ "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasSlipPlane represents the relationship between crystal structure and slip plane." + "@value": "hasBurgersVector represents the relationship between dislocation to Burgers vector." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#CrystalStructure" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has slip plane" + "@value": "has Burgers vector" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" - } - ], - "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePlane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#BurgersVector" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#vectorMagnitude", - "@type": [ - "http://www.w3.org/2002/07/owl#DatatypeProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line", + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Vector", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "Mathematical representation of dislocation as 'Line'. An instance of mathematical representation of a dislocation line is an oriented curve parameterized by its arc length." + "@value": "(Euclidean) vector is used to represent quantities that both magnitude and direction." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Line" + "@value": "Vector" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "_:N7c3fbd35e0da49a2affaa6f90712d243" + "@id": "_:Nd00ee062c9f9405eb4333efa3724ca4a" + }, + { + "@id": "_:N50943b98402e430080502e11fddcc5a2" } ], - "http://www.w3.org/2002/07/owl#disjointWith": [ + "http://www.w3.org/2004/02/skos/core#defintion": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" + "@language": "en", + "@value": "(Euclidean) vector used to represent quantities that both magnitude and direction." + } + ] + }, + { + "@id": "_:Nd00ee062c9f9405eb4333efa3724ca4a", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" + ], + "http://www.w3.org/2002/07/owl#intersectionOf": [ + { + "@list": [ + { + "@id": "_:Ndd09798f6ce34e6187c08034764b9665" + }, + { + "@id": "_:N34721e0be5954e24b1947df490b3e246" + } + ] } ] }, { - "@id": "_:N7c3fbd35e0da49a2affaa6f90712d243", + "@id": "_:Ndd09798f6ce34e6187c08034764b9665", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasNumericalRepresentation" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasVectorComponent" } ], "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#VectorComponentOfBasis" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection", + "@id": "_:N34721e0be5954e24b1947df490b3e246", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" + ], + "http://www.w3.org/2002/07/owl#allValuesFrom": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#VectorComponentOfBasis" + } + ], + "http://www.w3.org/2002/07/owl#onProperty": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasVectorComponent" + } + ] + }, + { + "@id": "_:N50943b98402e430080502e11fddcc5a2", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" + ], + "http://www.w3.org/2002/07/owl#onDataRange": [ + { + "@id": "http://www.w3.org/2001/XMLSchema#double" + } + ], + "http://www.w3.org/2002/07/owl#onProperty": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#vectorMagnitude" + } + ], + "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + { + "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", + "@value": "1" + } + ] + }, + { + "@id": "https://w3id.org/mdo/structure/Basis", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "The vector direction inside the lattice that is connecting two lattice points." + "@value": "A basis defines a spatial unit used to express fractional coordinates." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Lattice Direction" + "@value": "Basis" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Vector" - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalDirection" + "@id": "_:N3405dde62c6b42f185de934626f6d457" }, { - "@id": "_:N878c65810eb64b1199a105dd3d07fa88" + "@id": "_:Ne31959bc25d943038d1613fc01740ee8" }, { - "@id": "_:N2f71eba7ef6d41cf8e31f4c1339ea52c" + "@id": "_:Nb1bbbdd328854c1d95f32026b6806b4c" } - ] - }, - { - "@id": "_:N878c65810eb64b1199a105dd3d07fa88", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#intersectionOf": [ + "http://www.w3.org/2004/02/skos/core#defintion": [ { - "@list": [ - { - "@id": "_:Nc06c7b19a5094bb198563538cda26320" - }, - { - "@id": "_:Ne4414066db114ad49f50040d71a0932f" - } - ] + "@language": "en", + "@value": "Set of vector(in 2-D two vectors and in 3-D three vectors) that linearly independent." } ] }, { - "@id": "_:Nc06c7b19a5094bb198563538cda26320", + "@id": "_:N3405dde62c6b42f185de934626f6d457", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], + "http://www.w3.org/2002/07/owl#onClass": [ + { + "@id": "https://w3id.org/mdo/structure/CoordinateVector" + } + ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasFirstAxisVector" } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" + "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", + "@value": "1" } ] }, { - "@id": "_:Ne4414066db114ad49f50040d71a0932f", + "@id": "_:Ne31959bc25d943038d1613fc01740ee8", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ + "http://www.w3.org/2002/07/owl#onClass": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" + "@id": "https://w3id.org/mdo/structure/CoordinateVector" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasSecondAxisVector" + } + ], + "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + { + "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", + "@value": "1" } ] }, { - "@id": "_:N2f71eba7ef6d41cf8e31f4c1339ea52c", + "@id": "_:Nb1bbbdd328854c1d95f32026b6806b4c", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#onDataRange": [ + "http://www.w3.org/2002/07/owl#onClass": [ { - "@id": "http://www.w3.org/2001/XMLSchema#string" + "@id": "https://w3id.org/mdo/structure/CoordinateVector" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#directionMillerIndice" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasThirdAxisVector" } ], "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ @@ -989,248 +937,202 @@ ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlaneNormal", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlane", "@type": [ "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasSlipPlaneNormal represents the relationship between a slip plane or slip system with slip plane normal." + "@value": "hasSlipPlane represents the relationship between crystal structure and slip plane." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "_:Nace8e33bde9549d3a3bf9b8b72eea34e" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#CrystalStructure" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has slip plane normal" + "@value": "has slip plane" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" } - ] - }, - { - "@id": "_:Nace8e33bde9549d3a3bf9b8b72eea34e", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#unionOf": [ + "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ { - "@list": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem" - } - ] + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePlane" } ] }, { - "@id": "http://www.w3.org/2004/02/skos/core#defintion", - "@type": [ - "http://www.w3.org/2002/07/owl#AnnotationProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalDirection", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "The direction in the slip plane along which plastic deformation takes place. The slip direction corresponds to one of the shortest lattice translation vectors." + "@value": "A set of symmetrically equivalent directions in the lattice." + }, + { + "@language": "de", + "@value": "die Menge aller symmetrisch äquivalenten Richtungen." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Slip Direction" + "@value": "Family of Crystal Direction" + }, + { + "@language": "de", + "@value": "die Familie der Gitterrichtung" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + "@id": "_:N452a730c41114da196d0d219a2ea52fd" + } + ], + "http://www.w3.org/2002/07/owl#disjointWith": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalPlane" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem", + "@id": "_:N452a730c41114da196d0d219a2ea52fd", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#onDataRange": [ { - "@language": "en", - "@value": "A slip system is defined as the set of slip planes with the same unit normal vector and the same slip direction." + "@id": "http://www.w3.org/2001/XMLSchema#string" } ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "Slip System" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#familyDirectionMillerIndice" } ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ - { - "@id": "_:Nd0eee09534bd433a9f001e1b730ebbc9" - }, + "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ { - "@id": "_:N340ff334391a4f31981e3e64c6eb199f" + "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", + "@value": "1" } ] }, { - "@id": "_:Nd0eee09534bd433a9f001e1b730ebbc9", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#ShapeFunction", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#intersectionOf": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@list": [ - { - "@id": "_:Ne9eae63d0b5a4397ab324d5dc4aac238" - }, - { - "@id": "_:N3206dbf446d44d28987f79be151d3220" - } - ] - } - ] - }, - { - "@id": "_:Ne9eae63d0b5a4397ab324d5dc4aac238", - "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" - ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "@language": "de", + "@value": "Die Formfunktion ist die Funktion, die die Lösung zwischen den an den Netzknoten erhaltenen diskreten Werten interpoliert. Bei der diskretisierten Versetzung bestimmt die Formfunktion die Form eines Segments und letztlich die Form der Linie. Beispiele für Formfunktionen, die zur Diskretisierung der Versetzung verwendet werden, sind kreisförmig, elliptisch, spiralförmig, linear, kubisch und quintisch." + }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipDirection" + "@language": "en", + "@value": "The shape function is the function that interpolates the solution between the discrete values obtained at the mesh nodes. In discretized dislocation, the shape function determines the shape of a segment and ultimately determines the shape of the line. Examples of shape function that is used to discretize the dislocation are circular, elliptic, spiral, linear, cubic, and quintic." } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection" - } - ] - }, - { - "@id": "_:N3206dbf446d44d28987f79be151d3220", - "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" - ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection" - } - ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "@language": "en", + "@value": "Shape Function" + }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipDirection" + "@language": "de", + "@value": "die Formfunktion" } ] }, { - "@id": "_:N340ff334391a4f31981e3e64c6eb199f", + "@id": "https://w3id.org/mdo/structure/Z_axisCoordinate", "@type": [ - "http://www.w3.org/2002/07/owl#Class" - ], - "http://www.w3.org/2002/07/owl#intersectionOf": [ - { - "@list": [ - { - "@id": "_:N3e76cd3b4a1342cb8d12b4b48822cc08" - }, - { - "@id": "_:N6f04a78adea944e0ba81ffaa8e033396" - } - ] - } + "http://www.w3.org/2002/07/owl#DatatypeProperty" ] }, { - "@id": "_:N3e76cd3b4a1342cb8d12b4b48822cc08", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#Ontology" ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://purl.org/dc/terms/contributor": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlaneNormal" + "@value": "Said Fathalla" + }, + { + "@value": "Stefan Sandfeld" } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://purl.org/dc/terms/created": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" + "@language": "en", + "@value": "21.03.2022" } - ] - }, - { - "@id": "_:N6f04a78adea944e0ba81ffaa8e033396", - "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ + "http://purl.org/dc/terms/creator": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" + "@language": "en", + "@value": "Ahmad Zainul Ihsan" } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://purl.org/dc/terms/license": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlaneNormal" + "@id": "http://creativecommons.org/licenses/by/3.0/" } - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasNumericalRepresentation", - "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://purl.org/dc/terms/title": [ { "@language": "en", - "@value": "hasNumericalRepresentation relates the entity with its numerical representation." + "@value": "Dislocation Ontology" } ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "http://purl.org/vocab/vann/preferredNamespacePrefix": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line" + "@value": "DISO" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has numerical representation" + "@value": "Dislocation Ontology" } ], - "http://www.w3.org/2000/01/rdf-schema#range": [ + "http://www.w3.org/2000/01/rdf-schema#seeAlso": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" + "@value": "https://github.com/Materials-Data-Science-and-Informatics/dislocation-ontology" } ], - "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ + "http://www.w3.org/2002/07/owl#versionInfo": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasRepresentation" + "@type": "http://www.w3.org/2001/XMLSchema#decimal", + "@value": "1.0" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#movesOn", + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasVectorComponent", + "@type": [ + "http://www.w3.org/2002/07/owl#ObjectProperty" + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasMathematicalRepresentation", "@type": [ "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "movesOn represents the relationship between dislocation and slip plane." + "@value": "hasMathematicalRepresentation relates the entity with its mathematical representation." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ @@ -1241,52 +1143,35 @@ "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "moves on" + "@value": "has mathematical representation" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line" + } + ], + "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasRepresentation" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#EdgeDislocation", + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasFirstAxisVector", "@type": [ - "http://www.w3.org/2002/07/owl#Class" - ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ - { - "@language": "en", - "@value": "A dislocation that has a line sense perpendicular to its Burgers vector." - } - ], - "http://www.w3.org/2000/01/rdf-schema#label": [ - { - "@language": "en", - "@value": "Edge Dislocation" - } - ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" - } - ], - "http://www.w3.org/2002/07/owl#disjointWith": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#ScrewDislocation" - } + "http://www.w3.org/2002/07/owl#ObjectProperty" ] }, { - "@id": "http://qudt.org/schema/qudt/QuantityValue", + "@id": "http://qudt.org/schema/qudt/Quantity", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], "http://qudt.org/schema/qudt/description": [ { "@type": "http://www.w3.org/1999/02/22-rdf-syntax-ns#HTML", - "@value": "A Quantity Value expresses the magnitude and kind of a quantity and is given by the product of a numerical value n and a unit of measure U. The number multiplying the unit is referred to as the numerical value of the quantity expressed in that unit. Refer to NIST SP 811 section 7 for more on quantity values." + "@value": "

A quantity is the measurement of an observable property of a particular object, event, or physical system. A quantity is always associated with the context of measurement (i.e. the thing measured, the measured value, the accuracy of measurement, etc.) whereas the underlying quantity kind is independent of any particular measurement. Thus, length is a quantity kind while the height of a rocket is a specific quantity of length; its magnitude that may be expressed in meters, feet, inches, etc. Examples of physical quantities include physical constants, such as the speed of light in a vacuum, Planck's constant, the electric permittivity of free space, and the fine structure constant.

\n\n

In other words, quantities are quantifiable aspects of the world, such as time, distance, velocity, mass, momentum, energy, and weight, and units are used to describe their measure. Many of which are related to each other by various physical laws, and as a result the units of some of the quantities can be expressed as products (or ratios) of powers of other units (e.g., momentum is mass times velocity and velocity is measured in distance divided by time). These relationships are discussed in dimensional analysis. Those that cannot be so expressed can be regarded as "fundamental" in this sense.

\n

A quantity is distinguished from a "quantity kind" in that the former carries a value and the latter is a type specifier.

" } ], "http://www.w3.org/2000/01/rdf-schema#isDefinedBy": [ @@ -1299,141 +1184,108 @@ ], "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@value": "Quantity value" + "@value": "Quantity" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "_:N57ab473b761f4fdb95ea184c0c4a240c" + "@id": "_:N403706b59b4643498db3475afa84c4ab" + }, + { + "@id": "_:Nbcea203d899c4aa287bd928b0c2bf705" } ] }, { - "@id": "_:N57ab473b761f4fdb95ea184c0c4a240c", + "@id": "_:N403706b59b4643498db3475afa84c4ab", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "http://qudt.org/schema/qudt/Unit" + "@id": "http://qudt.org/schema/qudt/QuantityKind" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "http://qudt.org/schema/qudt/unit" - } - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalPlane", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" - ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ - { - "@language": "en", - "@value": "A set of symmetrically equivalent planes in the lattice." - } - ], - "http://www.w3.org/2000/01/rdf-schema#label": [ - { - "@language": "en", - "@value": "Family of Crystal Plane" - } - ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ - { - "@id": "_:N6283bdc0d36f4a8697b159cbafbaeece" + "@id": "http://qudt.org/schema/qudt/hasQuantityKind" } ] }, { - "@id": "_:N6283bdc0d36f4a8697b159cbafbaeece", + "@id": "_:Nbcea203d899c4aa287bd928b0c2bf705", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#onDataRange": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "http://www.w3.org/2001/XMLSchema#string" + "@id": "http://qudt.org/schema/qudt/QuantityValue" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#familyPlaneMillerIndice" - } - ], - "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ - { - "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", - "@value": "1" + "@id": "http://qudt.org/schema/qudt/quantityValue" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#slipArea", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation", "@type": [ - "http://www.w3.org/2002/07/owl#DatatypeProperty" + "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@language": "en", - "@value": "slipArea represents the slip area of discretized line in double." - } - ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" - } - ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "@language": "de", + "@value": "Ein linearer oder eindimensionaler Defekt, um den herum einige der Atome falsch ausgerichtet sind. Im Mesoscale ist eine Versetzung ein linienförmiges Objekt, das eine Grenze darstellt, die die Regionen auf der Gleitebene, in denen ein Gleiten stattgefunden hat, von denen trennt, in denen dies nicht der Fall war." + }, { "@language": "en", - "@value": "slipArea" - } - ], - "http://www.w3.org/2000/01/rdf-schema#range": [ - { - "@id": "http://www.w3.org/2001/XMLSchema#double" - } - ] - }, - { - "@id": "https://w3id.org/mdo/structure/X_axisCoordinate", - "@type": [ - "http://www.w3.org/2002/07/owl#DatatypeProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Lattice", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" - ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "@value": "Linear or one-dimensional defect around which some of the atoms are misaligned. In the mesoscale, a dislocation is a line object that is a boundary separating the regions on the slip plane which have undergone slip from those that have not." + }, { "@language": "en", - "@value": "The mathematical concept to represent the periodicity of a crystal. A lattice defines a periodic arrangement of one or more atoms." + "@value": "The presence of dislocation introduces local disturbance of the atomic-level geometry." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Lattice" + "@value": "Dislocation" + }, + { + "@language": "de", + "@value": "die Versetzung" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "_:Ne9a486e6046942369e0492e7e20bc4bb" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineDefect" + }, + { + "@id": "_:Nd439e57eb6c040aabc30364f34b2e268" + }, + { + "@id": "_:N6d6dc8dae7da4700936f1378e252d04c" + }, + { + "@id": "_:Na89b613778624b7aaa67c7a3e5f201a2" + }, + { + "@id": "_:Nb87dc81d738f4b139cd9e840b1fb9b26" }, { - "@id": "_:N3982197fe15343f79b7f2befdda9def5" + "@id": "_:Ndd560ed043c54f4d940c3a87fc405dff" }, { - "@id": "_:Nf90e8c2015f74eccb0edcd4a13473ee0" + "@id": "_:Ne70b72e2833b4f8cbbf5b4484dc48aca" + }, + { + "@id": "_:Nab4c4e3a52b14be597385c49471b9187" } ] }, { - "@id": "_:Ne9a486e6046942369e0492e7e20bc4bb", + "@id": "_:Nd439e57eb6c040aabc30364f34b2e268", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], @@ -1441,49 +1293,49 @@ { "@list": [ { - "@id": "_:Nd4ba6059ea9445a48318ac4f3943128b" + "@id": "_:Nfe29857919dd41b39e9f3ba6e8d1839f" }, { - "@id": "_:N7af96299e85a4c7c87c51a1820a0faee" + "@id": "_:N021bbc033483460faf5f5d935b1f65db" } ] } ] }, { - "@id": "_:Nd4ba6059ea9445a48318ac4f3943128b", + "@id": "_:Nfe29857919dd41b39e9f3ba6e8d1839f", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasBurgersVector" } ], "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#BurgersVector" } ] }, { - "@id": "_:N7af96299e85a4c7c87c51a1820a0faee", + "@id": "_:N021bbc033483460faf5f5d935b1f65db", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#BurgersVector" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasBurgersVector" } ] }, { - "@id": "_:N3982197fe15343f79b7f2befdda9def5", + "@id": "_:N6d6dc8dae7da4700936f1378e252d04c", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], @@ -1491,862 +1343,961 @@ { "@list": [ { - "@id": "_:Nfc7dce1da9e344d7b267da8e615c0a71" + "@id": "_:N95b0dc96d2e441ab8af2d53e34b42e55" }, { - "@id": "_:N3c1db54a03dd4ccd9334e2b347c0857d" + "@id": "_:N3692740c2eea4703b7eabd6bf7a5c991" } ] } ] }, { - "@id": "_:Nfc7dce1da9e344d7b267da8e615c0a71", + "@id": "_:N95b0dc96d2e441ab8af2d53e34b42e55", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePlane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLineSense" } ], "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineSense" } ] }, { - "@id": "_:N3c1db54a03dd4ccd9334e2b347c0857d", + "@id": "_:N3692740c2eea4703b7eabd6bf7a5c991", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineSense" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLineSense" } ] }, { - "@id": "_:Nf90e8c2015f74eccb0edcd4a13473ee0", + "@id": "_:Na89b613778624b7aaa67c7a3e5f201a2", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#intersectionOf": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@list": [ - { - "@id": "_:N3de973d3e7054ebea55364fdda687cb1" - }, - { - "@id": "_:N6acd57a2201c4df6b292540ede75b971" - } - ] + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasMathematicalRepresentation" + } + ], + "http://www.w3.org/2002/07/owl#someValuesFrom": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line" } ] }, { - "@id": "_:N3de973d3e7054ebea55364fdda687cb1", + "@id": "_:Nb87dc81d738f4b139cd9e840b1fb9b26", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#movesOn" } ], "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" } ] }, { - "@id": "_:N6acd57a2201c4df6b292540ede75b971", + "@id": "_:Ndd560ed043c54f4d940c3a87fc405dff", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#observedBy" } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FieldIonMicroscopy" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#CrystalStructure", + "@id": "_:Ne70b72e2833b4f8cbbf5b4484dc48aca", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "A crystal structure is described by the lattice geometry and atomic arrangements within the unit cell." + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#observedBy" } ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@language": "en", - "@value": "Crystal Structure" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#TransmissionElectronMicroscopy" } + ] + }, + { + "@id": "_:Nab4c4e3a52b14be597385c49471b9187", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "_:N060f563785994bc984b13af1477770cb" - }, + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#resultsIn" + } + ], + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "_:Nf9c3d2e595a841c1a84518a0fc92188a" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDisplacement" } ] }, { - "@id": "_:N060f563785994bc984b13af1477770cb", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#TransmissionElectronMicroscopy", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#intersectionOf": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@list": [ - { - "@id": "_:N04a78b77bf224962a173308cf318295f" - }, - { - "@id": "_:Nab8438c2b1044872bc393ebe66b273f3" - } - ] + "@language": "de", + "@value": "Die Transmissionselektronenmikroskopie (TEM) ist eine Mikroskopietechnik, bei der ein Elektronenstrahl durch eine Probe geschickt wird, um ein Bild zu erzeugen. Bei der Probe handelt es sich häufig um einen ultradünnen Schnitt von weniger als 100 nm Dicke." + }, + { + "@language": "en", + "@value": "Transmission electron microscopy (TEM) is a microscopy technique in which a beam of electrons is transmitted through a specimen to form an image. The specimen is often an ultrathin section less than 100 nm thick." + } + ], + "http://www.w3.org/2000/01/rdf-schema#label": [ + { + "@language": "de", + "@value": "Die Transmissionselektronenmikroskopie" + }, + { + "@language": "en", + "@value": "Transmission Electron Microscopy" } ] }, { - "@id": "_:N04a78b77bf224962a173308cf318295f", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasFamilyCrystalDirection", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#ObjectProperty" ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlane" + "@language": "en", + "@value": "hasFamilyCrystalDirection represents the relationship between lattice direction and family of crystal direction." } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" } - ] - }, - { - "@id": "_:Nab8438c2b1044872bc393ebe66b273f3", - "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" + "@language": "en", + "@value": "has family crystal direction" } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalDirection" } ] }, { - "@id": "_:Nf9c3d2e595a841c1a84518a0fc92188a", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#VectorOrigin", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#intersectionOf": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@list": [ - { - "@id": "_:N64e6f34c17f445239b65cd3eaeff7773" - }, - { - "@id": "_:N6a8f6c39d6c24c7fa05a94396c5ff382" - } - ] + "@language": "en", + "@value": "A fixed point that is needed by the vector to identify other points in the space relative to its origin." + }, + { + "@language": "de", + "@value": "Ein Fixpunkt, der vom Vektor benötigt wird, um andere Punkte im Raum relativ zu seinem Ursprung zu identifizieren." + } + ], + "http://www.w3.org/2000/01/rdf-schema#label": [ + { + "@language": "en", + "@value": "Vector Origin" + }, + { + "@language": "de", + "@value": "der Ursprung" + } + ], + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Point" } ] }, { - "@id": "_:N64e6f34c17f445239b65cd3eaeff7773", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDisplacement", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipSystem" + "@language": "de", + "@value": "Die Verschiebung von Atomen von ihren perfekten Gitterpunkt aufgrund des Fehlens von Defekten, z. B. Punktuelle Defekte, Linearedefekte und Korngrenzen." + }, + { + "@language": "en", + "@value": "The displacement of atoms from their perfect lattice sites due to the existence of defects, e.g., point defect, line defect, and grain boundary." } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem" + "@language": "en", + "@value": "Lattice Displacement" + }, + { + "@language": "de", + "@value": "die Verschiebung" } ] }, { - "@id": "_:N6a8f6c39d6c24c7fa05a94396c5ff382", + "@id": "http://qudt.org/schema/qudt/unit", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#ObjectProperty" + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasSecondAxisVector", + "@type": [ + "http://www.w3.org/2002/07/owl#ObjectProperty" + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#PositionVector", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem" + "@language": "en", + "@value": "Euclidean vector that represents the position of a point P in space in relation to an arbitrary reference origin O." } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ + { + "@language": "en", + "@value": "Position Vector" + } + ], + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipSystem" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Vector" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#familyDirectionMillerIndice", + "@id": "http://purl.org/dc/terms/created", "@type": [ - "http://www.w3.org/2002/07/owl#DatatypeProperty" + "http://www.w3.org/2002/07/owl#AnnotationProperty" + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipSystem", + "@type": [ + "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "familyDirectionMillerIndice represents a set of miller indices of lattice direction in string." + "@value": "hasSlipSystem represents the relationship between a crystal structure and slip system." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#CrystalStructure" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "family direction miller indice" + "@value": "has slip system" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "http://www.w3.org/2001/XMLSchema#string" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem" } ] }, { - "@id": "http://purl.org/dc/terms/contributor", - "@type": [ - "http://www.w3.org/2002/07/owl#AnnotationProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasFirstAxisVector", - "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasPositionVector", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#planeMillerIndice", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#DatatypeProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasPositionVector represents the relationship between entity and position vector." + "@value": "planeMillerIndice represents Miller indice of lattice plane in string." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Point" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has position vector" + "@value": "plane miller indice" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#PositionVector" + "@id": "http://www.w3.org/2001/XMLSchema#string" } ] }, { - "@id": "https://w3id.org/mdo/structure/CoordinateVector", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#ObjectProperty" ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "Coordinate Vector" + "@value": "hasLatticePoint represents the relationship between a lattice or lattice plane or lattice direction with lattice point." } ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ - { - "@id": "_:N6c28766f53a1436c92f801d442418f8c" - }, - { - "@id": "_:N91e84572d29c4f97becb3df0dce22c69" - }, + "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "_:N3052a2ab892c4d739f0c4b6dc6091424" + "@id": "_:Nb4d255120bc94efc9cd3a33ad197bf5e" } ], - "http://www.w3.org/2004/02/skos/core#defintion": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "A coordinate vector according to standard basis, i.e., e_x (1, 0, 0), e_y(0, 1, 0), and e_z (0, 0, 1)." + "@value": "has lattice point" + } + ], + "http://www.w3.org/2000/01/rdf-schema#range": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" } ] }, { - "@id": "_:N6c28766f53a1436c92f801d442418f8c", + "@id": "_:Nb4d255120bc94efc9cd3a33ad197bf5e", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" - ], - "http://www.w3.org/2002/07/owl#onDataRange": [ - { - "@id": "http://www.w3.org/2001/XMLSchema#double" - } - ], - "http://www.w3.org/2002/07/owl#onProperty": [ - { - "@id": "https://w3id.org/mdo/structure/X_axisCoordinate" - } + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + "http://www.w3.org/2002/07/owl#unionOf": [ { - "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", - "@value": "1" + "@list": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Lattice" + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" + } + ] } ] }, { - "@id": "_:N91e84572d29c4f97becb3df0dce22c69", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#onDataRange": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "http://www.w3.org/2001/XMLSchema#double" + "@language": "de", + "@value": "Die Richtung in der Gleitebene, in der die plastische Verformung stattfindet. Die Gleitrichtung entspricht einem der kürzesten Translationsvektoren des Gitters." + }, + { + "@language": "en", + "@value": "The direction in the slip plane along which plastic deformation takes place. The slip direction corresponds to one of the shortest lattice translation vectors." } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "https://w3id.org/mdo/structure/Y_axisCoordinate" + "@language": "en", + "@value": "Slip Direction" + }, + { + "@language": "de", + "@value": "die Gleitrichtung" } ], - "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", - "@value": "1" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" } ] }, { - "@id": "_:N3052a2ab892c4d739f0c4b6dc6091424", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#BurgersVector", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#onDataRange": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "http://www.w3.org/2001/XMLSchema#double" + "@language": "en", + "@value": "An elementary unit (length order of lattice parameter) of lattice translation. The basic notion of the Burgers vector comes from the closure failure of an initially perfect lattice due to the existence of dislocation. The magnitude and direction of closure failure are characterized by the Burgers vector." + }, + { + "@language": "de", + "@value": "Eine elementare Einheit (Längenordnung der Gitterparameter) der Gittertranslation. Der grundlegende Begriff des Burgers-Vektors leitet sich aus dem Versagen der Schließung eines ursprünglich perfekten Gitters aufgrund der Existenz von Versetzungen ab. Das Ausmaß und die Richtung des Schließfehlers werden durch den Burgers-Vektor charakterisiert." } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "https://w3id.org/mdo/structure/Z_axisCoordinate" + "@language": "en", + "@value": "Burgers Vector" + }, + { + "@language": "de", + "@value": "der Burgersvektor" } ], - "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", - "@value": "1" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Vector" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePlane", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@language": "en", - "@value": "hasLatticePlane represents the relationship between a lattice and lattice planes." - } - ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "@language": "de", + "@value": "Die kristallografische/Gitterebene, entlang derer die Versetzungslinie verläuft/bewegt wird. Die Gleitebene ist in der Regel die Ebene mit der höchsten Dichte an Atomen, d. h. mit dem größten Abstand." + }, { - "@id": "_:N7f265266d4b242b89c4a774f0d1ba817" + "@language": "en", + "@value": "The crystallographic/lattice plane along which the dislocation line traverses/moves. The slip plane is usually the plane with the highest density of atoms, i.e. most widely spaced." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has lattice plane" + "@value": "Slip Plane" + }, + { + "@language": "de", + "@value": "die Gleitebene" } ], - "http://www.w3.org/2000/01/rdf-schema#range": [ + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" + }, + { + "@id": "_:N9a1332a504594f0095e44d1e1036cfc2" + }, + { + "@id": "_:N43f2d0f5dfb54739b42f85a70955c5d3" } ] }, { - "@id": "_:N7f265266d4b242b89c4a774f0d1ba817", + "@id": "_:N9a1332a504594f0095e44d1e1036cfc2", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#unionOf": [ + "http://www.w3.org/2002/07/owl#intersectionOf": [ { "@list": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#CrystalStructure" + "@id": "_:Na74d7fc7044848ccb7dce41902fae685" }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Lattice" + "@id": "_:N72a6ac6f3e0443cf8b033a5d5c7b644c" } ] } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalDirection", + "@id": "_:Na74d7fc7044848ccb7dce41902fae685", "@type": [ - "http://www.w3.org/2002/07/owl#Class" - ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ - { - "@language": "en", - "@value": "A set of symmetrically equivalent directions in the lattice." - } - ], - "http://www.w3.org/2000/01/rdf-schema#label": [ - { - "@language": "en", - "@value": "Family of Crystal Direction" - } + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "_:Nd85c3c4fbaf44b0381d5ec23d7c5e635" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipDirection" } ], - "http://www.w3.org/2002/07/owl#disjointWith": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalPlane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection" } ] }, { - "@id": "_:Nd85c3c4fbaf44b0381d5ec23d7c5e635", + "@id": "_:N72a6ac6f3e0443cf8b033a5d5c7b644c", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#onDataRange": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "http://www.w3.org/2001/XMLSchema#string" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#familyDirectionMillerIndice" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipDirection" } + ] + }, + { + "@id": "_:N43f2d0f5dfb54739b42f85a70955c5d3", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + "http://www.w3.org/2002/07/owl#intersectionOf": [ { - "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", - "@value": "1" + "@list": [ + { + "@id": "_:Ne20e29c008964663931b2ef4808fdd48" + }, + { + "@id": "_:N47dbdc4d1104478c8cea2c152622b97a" + } + ] } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipSystem", + "@id": "_:Ne20e29c008964663931b2ef4808fdd48", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "hasSlipSystem represents the relationship between a crystal structure and slip system." + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlaneNormal" } ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#CrystalStructure" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" } + ] + }, + { + "@id": "_:N47dbdc4d1104478c8cea2c152622b97a", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@language": "en", - "@value": "has slip system" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" } ], - "http://www.w3.org/2000/01/rdf-schema#range": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlaneNormal" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal", + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#CrystalStructure", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "The unit normal vector of slip planes." + "@value": "A crystal structure is described by the lattice geometry and atomic arrangements within the unit cell." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Slip Plane Normal" + "@value": "Crystal Structure" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Vector" + "@id": "_:N28b5e6af37594f44821debe3ac83b0a1" }, { - "@id": "_:N0c2bba45bd024fb5b828c9934ef1088b" + "@id": "_:N215e1587c5ba4693b12e5d94864d9128" + } + ] + }, + { + "@id": "_:N28b5e6af37594f44821debe3ac83b0a1", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" + ], + "http://www.w3.org/2002/07/owl#intersectionOf": [ + { + "@list": [ + { + "@id": "_:N60afc15035f74d61a824400d77ea64c1" + }, + { + "@id": "_:N1da0d9923bba4fc89198bd9c77070ca5" + } + ] } ] }, { - "@id": "_:N0c2bba45bd024fb5b828c9934ef1088b", + "@id": "_:N60afc15035f74d61a824400d77ea64c1", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#onDataRange": [ - { - "@id": "http://www.w3.org/2001/XMLSchema#string" - } - ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#directionMillerIndice" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlane" } ], - "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", - "@value": "1" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint", + "@id": "_:N1da0d9923bba4fc89198bd9c77070ca5", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@language": "en", - "@value": "Lattice point is the point where atom(s) or molecule(s) is located." + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" } ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "Lattice Point" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlane" } + ] + }, + { + "@id": "_:N215e1587c5ba4693b12e5d94864d9128", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ + "http://www.w3.org/2002/07/owl#intersectionOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Point" + "@list": [ + { + "@id": "_:N10a7fae033b04f1aa6da008baf0f8104" + }, + { + "@id": "_:N9d39715c4ff944159c093c2652152107" + } + ] } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasFamilyCrystalPlane", + "@id": "_:N10a7fae033b04f1aa6da008baf0f8104", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "hasFamilyCrystalPlane represents the relationship between the lattice plane and the family of crystal planes." + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipSystem" } ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem" } + ] + }, + { + "@id": "_:N9d39715c4ff944159c093c2652152107", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@language": "en", - "@value": "has family crystal plane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem" } ], - "http://www.w3.org/2000/01/rdf-schema#range": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalPlane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipSystem" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasRepresentation", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasRepresentation relates the entity to another representation of entity." - } - ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "@value": "Mathematical representation of dislocation as 'Line'. An instance of mathematical representation of a dislocation line is an oriented curve parameterized by its arc length." + }, { - "@id": "http://www.w3.org/2002/07/owl#Thing" + "@language": "de", + "@value": "Mathematische Darstellung der Versetzung als \"Linie\". Ein Beispiel für die mathematische Darstellung einer Versetzungslinie ist eine orientierte Kurve, die durch ihre Bogenlänge parametrisiert ist." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has representation" + "@value": "Line" + }, + { + "@language": "de", + "@value": "die Linie" } ], - "http://www.w3.org/2000/01/rdf-schema#range": [ + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "_:Na524ee5485bf4b3e94850c29acd2dc22" + "@id": "_:N305bb5b827974e1192ff9e78299cbba2" } - ] - }, - { - "@id": "_:Na524ee5485bf4b3e94850c29acd2dc22", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#unionOf": [ + "http://www.w3.org/2002/07/owl#disjointWith": [ { - "@list": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line" - } - ] + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSegment", + "@id": "_:N305bb5b827974e1192ff9e78299cbba2", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "hasSegment represents the relationship between discretized line and segment." + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasNumericalRepresentation" } ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" } - ], - "http://www.w3.org/2000/01/rdf-schema#label": [ - { - "@language": "en", - "@value": "has segment" - } - ], - "http://www.w3.org/2000/01/rdf-schema#range": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment" - } - ], - "http://www.w3.org/2002/07/owl#inverseOf": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#isSegmentOf" - } ] }, { - "@id": "https://w3id.org/mdo/structure/Z_axisCoordinate", + "@id": "https://w3id.org/mdo/structure/Y_axisCoordinate", "@type": [ "http://www.w3.org/2002/07/owl#DatatypeProperty" ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Point", + "@id": "http://qudt.org/schema/qudt/QuantityValue", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://qudt.org/schema/qudt/description": [ { - "@language": "en", - "@value": "In classical Euclidean geometry, a point is a primitive notion that models an exact location in the space, and has no length, width, or thickness." + "@type": "http://www.w3.org/1999/02/22-rdf-syntax-ns#HTML", + "@value": "A Quantity Value expresses the magnitude and kind of a quantity and is given by the product of a numerical value n and a unit of measure U. The number multiplying the unit is referred to as the numerical value of the quantity expressed in that unit. Refer to NIST SP 811 section 7 for more on quantity values." + } + ], + "http://www.w3.org/2000/01/rdf-schema#isDefinedBy": [ + { + "@id": "http://qudt.org/2.0/schema/qudt" + }, + { + "@id": "http://qudt.org/schema/qudt" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@language": "en", - "@value": "Point" + "@value": "Quantity value" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "_:Na63f532a30424a95a4300dbd44562b46" + "@id": "_:N66c768296dba4dab9c7b4b7c4173e0ce" } ] }, { - "@id": "_:Na63f532a30424a95a4300dbd44562b46", + "@id": "_:N66c768296dba4dab9c7b4b7c4173e0ce", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#PositionVector" + "@id": "http://qudt.org/schema/qudt/Unit" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasPositionVector" + "@id": "http://qudt.org/schema/qudt/unit" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#thirdAxisComponent", - "@type": [ - "http://www.w3.org/2002/07/owl#DatatypeProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLineSense", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#EdgeDislocation", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasLineSense represents the relationship between dislocation and line sense." - } - ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "@value": "A dislocation that has a line sense perpendicular to its Burgers vector." + }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" + "@language": "de", + "@value": "Eine Versetzung, die Burgersvektor und Versetzungslinie stehen senkrecht zueinander" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has line sense" + "@value": "Edge Dislocation" + }, + { + "@language": "de", + "@value": "die Stufenversetzung" } ], - "http://www.w3.org/2000/01/rdf-schema#range": [ + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineSense" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" + } + ], + "http://www.w3.org/2002/07/owl#disjointWith": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#ScrewDislocation" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#familyPlaneMillerIndice", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection", "@type": [ - "http://www.w3.org/2002/07/owl#DatatypeProperty" + "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@language": "en", - "@value": "familyPlaneMillerIndice represents a set of Miller indice of lattice plane in string." - } - ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "@language": "de", + "@value": "Die Vektorrichtung innerhalb des Gitters, die zwei Gitterpunkte verbindet." + }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalPlane" + "@language": "en", + "@value": "The vector direction inside the lattice that is connecting two lattice points." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ + { + "@language": "de", + "@value": "Die Gitterrichtung" + }, { "@language": "en", - "@value": "family plane miller indice" + "@value": "Lattice Direction" } ], - "http://www.w3.org/2000/01/rdf-schema#range": [ + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "http://www.w3.org/2001/XMLSchema#string" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Vector" + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalDirection" + }, + { + "@id": "_:N39fc8d5a45274c65abc42d76a779bb71" + }, + { + "@id": "_:N5d0d8e6786f34c83a35dc6532251a623" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasStartNode", + "@id": "_:N39fc8d5a45274c65abc42d76a779bb71", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#intersectionOf": [ { - "@language": "en", - "@value": "Sub-property of hasNode that relates the segment with the start node." + "@list": [ + { + "@id": "_:Nae98d026713c45aa80fba67bcd8cdcd4" + }, + { + "@id": "_:N2e0524ca4b1e4928b3255cd34a47e75f" + } + ] } + ] + }, + { + "@id": "_:Nae98d026713c45aa80fba67bcd8cdcd4", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" } ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@language": "en", - "@value": "has start node" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" } + ] + }, + { + "@id": "_:N2e0524ca4b1e4928b3255cd34a47e75f", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#range": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" } ], - "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasNode" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#resultsIn", + "@id": "_:N5d0d8e6786f34c83a35dc6532251a623", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" - ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ - { - "@language": "en", - "@value": "resultsIn represents the relationship between dislocation and lattice displacement." - } + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "http://www.w3.org/2002/07/owl#onDataRange": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" + "@id": "http://www.w3.org/2001/XMLSchema#string" } ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "results in" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#directionMillerIndice" } ], - "http://www.w3.org/2000/01/rdf-schema#range": [ + "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDisplacement" + "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", + "@value": "1" } ] }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasVectorComponent", - "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" - ] - }, { "@id": "https://purls.helmholtz-metadaten.de/disos/diso#isSegmentOf", "@type": [ @@ -2376,401 +2327,461 @@ ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso", + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#thirdAxisComponent", "@type": [ - "http://www.w3.org/2002/07/owl#Ontology" - ], - "http://purl.org/dc/terms/contributor": [ - { - "@value": "Said Fathalla" - }, - { - "@value": "Stefan Sandfeld" - } - ], - "http://purl.org/dc/terms/created": [ - { - "@language": "en", - "@value": "21.03.2022" - } + "http://www.w3.org/2002/07/owl#DatatypeProperty" + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Point", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" ], - "http://purl.org/dc/terms/creator": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "Ahmad Zainul Ihsan" - } - ], - "http://purl.org/dc/terms/license": [ - { - "@id": "http://creativecommons.org/licenses/by/3.0/" + "@value": "In classical Euclidean geometry, a point is a primitive notion that models an exact location in the space, and has no length, width, or thickness." } ], - "http://purl.org/dc/terms/title": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Dislocation Ontology" - } - ], - "http://purl.org/vocab/vann/preferredNamespacePrefix": [ - { - "@value": "DISO" + "@value": "Point" } ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@language": "en", - "@value": "Dislocation Ontology" + "@id": "_:N959b13206cb942b4b9cfb4bf619cfb8b" } + ] + }, + { + "@id": "_:N959b13206cb942b4b9cfb4bf619cfb8b", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#seeAlso": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@value": "https://github.com/Materials-Data-Science-and-Informatics/dislocation-ontology" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#PositionVector" } ], - "http://www.w3.org/2002/07/owl#versionInfo": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@type": "http://www.w3.org/2001/XMLSchema#decimal", - "@value": "1.0" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasPositionVector" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#planeMillerIndice", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasRepresentation", "@type": [ - "http://www.w3.org/2002/07/owl#DatatypeProperty" + "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "planeMillerIndice represents Miller indice of lattice plane in string." + "@value": "hasRepresentation relates the entity to another representation of entity." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" + "@id": "http://www.w3.org/2002/07/owl#Thing" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "plane miller indice" + "@value": "has representation" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "http://www.w3.org/2001/XMLSchema#string" + "@id": "_:N968a51fe5d434a08a7b4196e71f1b413" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineDefect", + "@id": "_:N968a51fe5d434a08a7b4196e71f1b413", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" + ], + "http://www.w3.org/2002/07/owl#unionOf": [ + { + "@list": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line" + } + ] + } + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "Linear or one-dimensional defect around which some of the atoms are misaligned." + "@value": "A slip system is defined as the set of slip planes with the same unit normal vector and the same slip direction." + }, + { + "@language": "de", + "@value": "Ein Gleitsystem ist definiert als die Menge der Gleitebenen mit dem gleichen Einheitsnormalvektor und der gleichen Gleitrichtung." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Line Defect" + "@value": "Slip System" + }, + { + "@language": "de", + "@value": "das Gleitsystem" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cdo#CrystallographicDefect" + "@id": "_:Nc306b156d450407499215e703e317d6d" + }, + { + "@id": "_:N1162741a59ef4698a38be258ed8c9146" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#PositionVector", + "@id": "_:Nc306b156d450407499215e703e317d6d", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#intersectionOf": [ { - "@language": "en", - "@value": "Euclidean vector that represents the position of a point P in space in relation to an arbitrary reference origin O." + "@list": [ + { + "@id": "_:Nd67bd9fe400e4672be8abef04968b306" + }, + { + "@id": "_:Nb2fab887928946e7b60e647f26da4327" + } + ] } + ] + }, + { + "@id": "_:Nd67bd9fe400e4672be8abef04968b306", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "Position Vector" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipDirection" } ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Vector" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection" } ] }, { - "@id": "https://w3id.org/mdo/structure/Basis", + "@id": "_:Nb2fab887928946e7b60e647f26da4327", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@language": "en", - "@value": "A basis defines a spatial unit used to express fractional coordinates." + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection" } ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "Basis" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipDirection" } + ] + }, + { + "@id": "_:N1162741a59ef4698a38be258ed8c9146", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ - { - "@id": "_:N9143f42660c0440398b5e83177210076" - }, + "http://www.w3.org/2002/07/owl#intersectionOf": [ { - "@id": "_:Nd977d5b0ae26418f94dd6bda3d6701c9" - }, + "@list": [ + { + "@id": "_:Na2e8bfa53c214708bb6870f1d7ca4055" + }, + { + "@id": "_:N00fd6cd0010544aca01c04344aa74533" + } + ] + } + ] + }, + { + "@id": "_:Na2e8bfa53c214708bb6870f1d7ca4055", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" + ], + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "_:Na47a97765c804d91805e70596708f90c" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlaneNormal" } ], - "http://www.w3.org/2004/02/skos/core#defintion": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@language": "en", - "@value": "Set of vector(in 2-D two vectors and in 3-D three vectors) that linearly independent." + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" } ] }, { - "@id": "_:N9143f42660c0440398b5e83177210076", + "@id": "_:N00fd6cd0010544aca01c04344aa74533", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#onClass": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://w3id.org/mdo/structure/CoordinateVector" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasFirstAxisVector" - } - ], - "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ - { - "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", - "@value": "1" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlaneNormal" } ] }, { - "@id": "_:Nd977d5b0ae26418f94dd6bda3d6701c9", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FieldIonMicroscopy", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#onClass": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "https://w3id.org/mdo/structure/CoordinateVector" + "@language": "de", + "@value": "Die Feldionenmikroskopie (FIM) ist eine Mikroskopietechnik, mit der sich die Anordnung von Atomen abbilden lässt." + }, + { + "@language": "en", + "@value": "Field Ion Microscopy (FIM) is a microscopy technique that can be used to image the arrangement of atoms." } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasSecondAxisVector" + "@language": "de", + "@value": "Das Feldionenmikroskop" + }, + { + "@language": "en", + "@value": "Field Ion Microscopy" } ], - "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + "http://www.w3.org/2002/07/owl#disjointWith": [ { - "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", - "@value": "1" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#TransmissionElectronMicroscopy" } ] }, { - "@id": "_:Na47a97765c804d91805e70596708f90c", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasVectorOrigin", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#ObjectProperty" ], - "http://www.w3.org/2002/07/owl#onClass": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "https://w3id.org/mdo/structure/CoordinateVector" + "@language": "en", + "@value": "hasVectorOrigin represents the relationship between lattice plane and origin." } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasThirdAxisVector" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" + } + ], + "http://www.w3.org/2000/01/rdf-schema#label": [ + { + "@language": "en", + "@value": "has vector origin" } ], - "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", - "@value": "1" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#VectorOrigin" } ] }, { - "@id": "https://w3id.org/mdo/structure/Y_axisCoordinate", - "@type": [ - "http://www.w3.org/2002/07/owl#DatatypeProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@language": "en", - "@value": "hasLatticePoint represents the relationship between a lattice or lattice plane or lattice direction with lattice point." - } - ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "@language": "de", + "@value": "Die Gitterebene bildet eine unendlich gestreckte Ebene (gekennzeichnet durch eine Ebenennormale), die die Gitterpunkte so schneidet, dass wiederum eine regelmäßige Anordnung der Gitterpunkte in der Ebene entsteht." + }, { - "@id": "_:N73eddba0374d4fe3aafd211026cd2aea" + "@language": "en", + "@value": "The lattice plane forms an infinitely stretched plane (characterized through a plane normal) that cuts through lattice points such that, again, a regular arrangement of lattice points in the plane occurs." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has lattice point" + "@value": "Lattice Plane" + }, + { + "@language": "de", + "@value": "die Gitterebene" } ], - "http://www.w3.org/2000/01/rdf-schema#range": [ + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalPlane" + }, + { + "@id": "_:N32e6587a1f6a41b89fac7a7c01eddc66" + }, + { + "@id": "_:Nb4582c00bc004d5cb6cdf4843a8c18b5" + }, + { + "@id": "_:N1b29ab893b924e289d3f3786e4877ee0" + }, + { + "@id": "_:N0ac108f7be2d46eeb12b7ce26075cd4c" } ] }, { - "@id": "_:N73eddba0374d4fe3aafd211026cd2aea", + "@id": "_:N32e6587a1f6a41b89fac7a7c01eddc66", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#unionOf": [ + "http://www.w3.org/2002/07/owl#intersectionOf": [ { "@list": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Lattice" - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + "@id": "_:Nc4b6c133576a4d2899b019a7055d3cb4" }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" + "@id": "_:Ne75bea63dabd4ecd9207afa1fbef32dc" } ] } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasFamilyCrystalDirection", + "@id": "_:Nc4b6c133576a4d2899b019a7055d3cb4", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "hasFamilyCrystalDirection represents the relationship between lattice direction and family of crystal direction." + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" } ], - "http://www.w3.org/2000/01/rdf-schema#domain": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" } + ] + }, + { + "@id": "_:Ne75bea63dabd4ecd9207afa1fbef32dc", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@language": "en", - "@value": "has family crystal direction" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" } ], - "http://www.w3.org/2000/01/rdf-schema#range": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine", + "@id": "_:Nb4582c00bc004d5cb6cdf4843a8c18b5", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ - { - "@language": "en", - "@value": "The numerical representation of the dislocation line that is discretized into the number of segments." - } - ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#intersectionOf": [ { - "@language": "en", - "@value": "Discretized Line" + "@list": [ + { + "@id": "_:N3107b8f51b06414a9ebc3fec1be07e0c" + }, + { + "@id": "_:N845bac469ba74dd8bd6f66b8fca94471" + } + ] } + ] + }, + { + "@id": "_:N3107b8f51b06414a9ebc3fec1be07e0c", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ - { - "@id": "_:Na2dc68215428422db9df562c1c46b619" - }, - { - "@id": "_:Nabb9730925ac4e3f9b465b75304607e2" - }, + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "_:Nb4ead77f129f47c9b8d59c3e7681a17b" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" } ], - "http://www.w3.org/2002/07/owl#disjointWith": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" } ] }, { - "@id": "_:Na2dc68215428422db9df562c1c46b619", + "@id": "_:N845bac469ba74dd8bd6f66b8fca94471", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSegment" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" } ] }, { - "@id": "_:Nabb9730925ac4e3f9b465b75304607e2", + "@id": "_:N1b29ab893b924e289d3f3786e4877ee0", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#ShapeFunction" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#VectorOrigin" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasShapeFunction" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasVectorOrigin" } ] }, { - "@id": "_:Nb4ead77f129f47c9b8d59c3e7681a17b", + "@id": "_:N0ac108f7be2d46eeb12b7ce26075cd4c", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#onDataRange": [ { - "@id": "http://www.w3.org/2001/XMLSchema#double" + "@id": "http://www.w3.org/2001/XMLSchema#string" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#slipArea" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#planeMillerIndice" } ], "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ @@ -2781,213 +2792,214 @@ ] }, { - "@id": "http://purl.org/dc/terms/created", - "@type": [ - "http://www.w3.org/2002/07/owl#AnnotationProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#firstAxisComponent", - "@type": [ - "http://www.w3.org/2002/07/owl#DatatypeProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasNode", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection", "@type": [ "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasNode represents the relationship between segment and node." + "@value": "hasLatticeDirection represents the relationship between a lattice or a lattice plane with lattice directions." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment" + "@id": "_:N80ba81d4d2b8499b862c88253ed9c000" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has node" + "@value": "has lattice direction" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" } ] }, { - "@id": "http://qudt.org/schema/qudt/QuantityKind", + "@id": "_:N80ba81d4d2b8499b862c88253ed9c000", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://qudt.org/schema/qudt/description": [ + "http://www.w3.org/2002/07/owl#unionOf": [ { - "@type": "http://www.w3.org/1999/02/22-rdf-syntax-ns#HTML", - "@value": "A Quantity Kind is any observable property that can be measured and quantified numerically. Familiar examples include physical properties such as length, mass, time, force, energy, power, electric charge, etc. Less familiar examples include currency, interest rate, price to earning ratio, and information capacity." + "@list": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Lattice" + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" + } + ] } + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cdo#CrystallographicDefect", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#isDefinedBy": [ - { - "@id": "http://qudt.org/2.0/schema/qudt" - }, + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "http://qudt.org/schema/qudt" + "@language": "en", + "@value": "The crystallographic defect is a lattice irregularity that has one or more dimensions on the order of an atomic diameter." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@value": "Quantity Kind" + "@language": "en", + "@value": "Crystallographic Defect" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#ScrewDislocation", + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#secondAxisComponent", + "@type": [ + "http://www.w3.org/2002/07/owl#DatatypeProperty" + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineSense", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "A dislocation that has a line sense parallel to its Burgers vector." + "@value": "A sense that characterizes a directed line, i.e., it has a start and an end." + }, + { + "@language": "de", + "@value": "Ein Element, das eine gerichtete Linie charakterisiert, d. h. sie hat einen Anfang und ein Ende." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Screw Dislocation" - } - ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ + "@value": "Line Sense" + }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" + "@language": "de", + "@value": "die Versetzunglinie" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#familyDirectionMillerIndice", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#DatatypeProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasLatticeDirection represents the relationship between a lattice or a lattice plane with lattice directions." + "@value": "familyDirectionMillerIndice represents a set of miller indices of lattice direction in string." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "_:N232acc7cd4084867b71cff243fb8b5b2" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalDirection" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has lattice direction" + "@value": "family direction miller indice" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + "@id": "http://www.w3.org/2001/XMLSchema#string" } ] }, { - "@id": "_:N232acc7cd4084867b71cff243fb8b5b2", + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Lattice", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#unionOf": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@list": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Lattice" - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" - } - ] + "@language": "de", + "@value": "Das mathematische Konzept zur Darstellung der Periodizität eines Kristalls. Ein Gitter definiert eine periodische Anordnung von einem oder mehreren Atomen." + }, + { + "@language": "en", + "@value": "The mathematical concept to represent the periodicity of a crystal. A lattice defines a periodic arrangement of one or more atoms." } - ] - }, - { - "@id": "http://qudt.org/schema/qudt/Unit", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" ], - "http://qudt.org/schema/qudt/description": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@type": "http://www.w3.org/1999/02/22-rdf-syntax-ns#HTML", - "@value": "A unit of measure, or unit, is a particular quantity value that has been chosen as a scale for measuring other quantities the same kind (more generally of equivalent dimension). For example, the meter is a quantity of length that has been rigorously defined and standardized by the BIPM (International Board of Weights and Measures). Any measurement of the length can be expressed as a number multiplied by the unit meter. More formally, the value of a physical quantity Q with respect to a unit (U) is expressed as the scalar multiple of a real number (n) and U, as \\(Q = nU\\)." + "@language": "en", + "@value": "Lattice" } ], - "http://www.w3.org/2000/01/rdf-schema#isDefinedBy": [ + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "http://qudt.org/2.0/schema/qudt" + "@id": "_:N7231bfabf8d743268f50b07e5cc94aa8" }, { - "@id": "http://qudt.org/schema/qudt" - } - ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "@id": "_:N83011a51f2804c03a81e52046ebeb628" + }, { - "@value": "Unit" - } - ] - }, - { - "@id": "http://qudt.org/schema/qudt/unit", - "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" - ] - }, - { - "@id": "http://purl.org/dc/terms/creator", - "@type": [ - "http://www.w3.org/2002/07/owl#AnnotationProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasThirdAxisVector", - "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "@id": "_:N3de65d4c362740c68f7136c466a053f7" + } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane", + "@id": "_:N7231bfabf8d743268f50b07e5cc94aa8", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2000/01/rdf-schema#comment": [ + "http://www.w3.org/2002/07/owl#intersectionOf": [ { - "@language": "en", - "@value": "The crystallographic/lattice plane along which the dislocation line traverses/moves. The slip plane is usually the plane with the highest density of atoms, i.e. most widely spaced." + "@list": [ + { + "@id": "_:N38a9220cf42b4b9faf5ba09c20ef998e" + }, + { + "@id": "_:N4f4f6b2a73a04e2eb4c4b462455477e2" + } + ] } + ] + }, + { + "@id": "_:N38a9220cf42b4b9faf5ba09c20ef998e", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2000/01/rdf-schema#label": [ + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@language": "en", - "@value": "Slip Plane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" } ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ + "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" - }, + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + } + ] + }, + { + "@id": "_:N4f4f6b2a73a04e2eb4c4b462455477e2", + "@type": [ + "http://www.w3.org/2002/07/owl#Restriction" + ], + "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "_:N5c956b250783410c9aabf09b45660e55" - }, + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" + } + ], + "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "_:Nc0f19a456b57400880369f2a4a0d5465" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" } ] }, { - "@id": "_:N5c956b250783410c9aabf09b45660e55", + "@id": "_:N83011a51f2804c03a81e52046ebeb628", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], @@ -2995,49 +3007,49 @@ { "@list": [ { - "@id": "_:Nf455845696c548cc809fcf0867ed22f8" + "@id": "_:Nfdc64c52fae2486ebbe11e6f8ce2d2c9" }, { - "@id": "_:N763950e6ec3b42758d20343e2c5656b5" + "@id": "_:Nc97887ba451e4537895c9962c29d860d" } ] } ] }, { - "@id": "_:Nf455845696c548cc809fcf0867ed22f8", + "@id": "_:Nfdc64c52fae2486ebbe11e6f8ce2d2c9", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePlane" } ], "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" } ] }, { - "@id": "_:N763950e6ec3b42758d20343e2c5656b5", + "@id": "_:Nc97887ba451e4537895c9962c29d860d", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipDirection" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" } ] }, { - "@id": "_:Nc0f19a456b57400880369f2a4a0d5465", + "@id": "_:N3de65d4c362740c68f7136c466a053f7", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], @@ -3045,119 +3057,144 @@ { "@list": [ { - "@id": "_:Nd94baa99db6c4c279a5767a276eefdf4" + "@id": "_:N81e9f63cd942486b83d7f2d8d40c32fa" }, { - "@id": "_:N3706cc0565324baab523c8909d89452a" + "@id": "_:N5201186950c84c0f8df6c4e59de096f0" } ] } ] }, { - "@id": "_:Nd94baa99db6c4c279a5767a276eefdf4", + "@id": "_:N81e9f63cd942486b83d7f2d8d40c32fa", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlaneNormal" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" } ], "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" } ] }, { - "@id": "_:N3706cc0565324baab523c8909d89452a", + "@id": "_:N5201186950c84c0f8df6c4e59de096f0", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePoint" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlaneNormal" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticePoint" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#ShapeFunction", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasEndNode", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "The shape function is the function that interpolates the solution between the discrete values obtained at the mesh nodes. In discretized dislocation, the shape function determines the shape of a segment and ultimately determines the shape of the line. Examples of shape function that is used to discretize the dislocation are circular, elliptic, spiral, linear, cubic, and quintic." + "@value": "Sub-property of hasNode that relates the segment with the end node." + } + ], + "http://www.w3.org/2000/01/rdf-schema#domain": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Shape Function" + "@value": "has end node" + } + ], + "http://www.w3.org/2000/01/rdf-schema#range": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" + } + ], + "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasNode" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasNumericalRepresentation", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "Linear or one-dimensional defect around which some of the atoms are misaligned. In the mesoscale, a dislocation is a line object that is a boundary separating the regions on the slip plane which have undergone slip from those that have not." - }, + "@value": "hasNumericalRepresentation relates the entity with its numerical representation." + } + ], + "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@language": "en", - "@value": "The presence of dislocation introduces local disturbance of the atomic-level geometry." + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Dislocation" - }, - { - "@language": "de", - "@value": "Versetzung" + "@value": "has numerical representation" } ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineDefect" - }, + "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "_:N1942bbaa283549c7810714ca28ed7e04" - }, + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" + } + ], + "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ { - "@id": "_:Ne0f839bc866b4f24ab0950bcc01dab65" - }, + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasRepresentation" + } + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#VectorComponentOfBasis", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" + ], + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "_:Ncba57060168040689a5fb56eba4df0e4" - }, + "@language": "en", + "@value": "Vector components/vector coordinates of particular basis. It has relation to a specific basis." + } + ], + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "_:N6b52eb6d63c84ab693934a9dce2ab0cb" - }, + "@language": "en", + "@value": "Vector Component of Basis" + } + ], + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ { - "@id": "_:N7a3966b5529c4337b2089a0563d6454f" + "@id": "http://qudt.org/schema/qudt/Quantity" }, { - "@id": "_:N0081eb8441a44e758d7b1f3992c440aa" + "@id": "_:Nbf5c7f6f643f4117823f8956bc729c33" }, { - "@id": "_:Nb17c8c9bad9a49d49997237c44ce08c2" + "@id": "_:N1e250b3e777345f3aaff82c071777be8" } ] }, { - "@id": "_:N1942bbaa283549c7810714ca28ed7e04", + "@id": "_:Nbf5c7f6f643f4117823f8956bc729c33", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], @@ -3165,49 +3202,49 @@ { "@list": [ { - "@id": "_:N19f6b7aaa8a54dc98ba2ed783c1607ff" + "@id": "_:N31df1db37abf42f69eb213ea424bf17a" }, { - "@id": "_:N9fae0b291d7741cda6246a0c13a70729" + "@id": "_:Ndbe5f861ee0542849f142d509ca2bc37" } ] } ] }, { - "@id": "_:N19f6b7aaa8a54dc98ba2ed783c1607ff", + "@id": "_:N31df1db37abf42f69eb213ea424bf17a", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasBurgersVector" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasBasis" } ], "http://www.w3.org/2002/07/owl#someValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#BurgersVector" + "@id": "https://w3id.org/mdo/structure/Basis" } ] }, { - "@id": "_:N9fae0b291d7741cda6246a0c13a70729", + "@id": "_:Ndbe5f861ee0542849f142d509ca2bc37", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], "http://www.w3.org/2002/07/owl#allValuesFrom": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#BurgersVector" + "@id": "https://w3id.org/mdo/structure/Basis" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasBurgersVector" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasBasis" } ] }, { - "@id": "_:Ne0f839bc866b4f24ab0950bcc01dab65", + "@id": "_:N1e250b3e777345f3aaff82c071777be8", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], @@ -3215,326 +3252,488 @@ { "@list": [ { - "@id": "_:N4569f70478c34d6693e1a5c9ade42dd5" + "@id": "_:N610b52cf560e48288f8f757dd1d3e67b" }, { - "@id": "_:Nd5d1cf5360844a41a7d38d2c3ed234e2" + "@id": "_:Ne9ab082670514909a2dd2d5354582497" + }, + { + "@id": "_:N0c6a3157bf564bbdb3c0372ccc5a1c8b" } ] } ] }, { - "@id": "_:N4569f70478c34d6693e1a5c9ade42dd5", + "@id": "_:N610b52cf560e48288f8f757dd1d3e67b", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], + "http://www.w3.org/2002/07/owl#onDataRange": [ + { + "@id": "http://www.w3.org/2001/XMLSchema#double" + } + ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLineSense" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#firstAxisComponent" } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineSense" + "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", + "@value": "1" } ] }, { - "@id": "_:Nd5d1cf5360844a41a7d38d2c3ed234e2", + "@id": "_:Ne9ab082670514909a2dd2d5354582497", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ + "http://www.w3.org/2002/07/owl#onDataRange": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineSense" + "@id": "http://www.w3.org/2001/XMLSchema#double" } ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLineSense" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#secondAxisComponent" + } + ], + "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + { + "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", + "@value": "1" } ] }, { - "@id": "_:Ncba57060168040689a5fb56eba4df0e4", + "@id": "_:N0c6a3157bf564bbdb3c0372ccc5a1c8b", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], + "http://www.w3.org/2002/07/owl#onDataRange": [ + { + "@id": "http://www.w3.org/2001/XMLSchema#double" + } + ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasMathematicalRepresentation" + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#thirdAxisComponent" } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line" + "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", + "@value": "1" + } + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FamilyOfCrystalPlane", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" + ], + "http://www.w3.org/2000/01/rdf-schema#comment": [ + { + "@language": "en", + "@value": "A set of symmetrically equivalent planes in the lattice." + }, + { + "@language": "de", + "@value": "Steht für Kristallformen, d. h. die Menge aller symmetrisch äquivalenten Flächen." + } + ], + "http://www.w3.org/2000/01/rdf-schema#label": [ + { + "@language": "en", + "@value": "Family of Crystal Plane" + }, + { + "@language": "de", + "@value": "die Familie der Gitterebene" + } + ], + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ + { + "@id": "_:Ncd75fc327a34401d81b0424dd70020e2" } ] }, { - "@id": "_:N6b52eb6d63c84ab693934a9dce2ab0cb", + "@id": "_:Ncd75fc327a34401d81b0424dd70020e2", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], + "http://www.w3.org/2002/07/owl#onDataRange": [ + { + "@id": "http://www.w3.org/2001/XMLSchema#string" + } + ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#movesOn" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#familyPlaneMillerIndice" } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" + "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", + "@value": "1" + } + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal", + "@type": [ + "http://www.w3.org/2002/07/owl#Class" + ], + "http://www.w3.org/2000/01/rdf-schema#comment": [ + { + "@language": "de", + "@value": "Der Einheitsnormalvektor der Gleitebenen." + }, + { + "@language": "en", + "@value": "The unit normal vector of slip planes." + } + ], + "http://www.w3.org/2000/01/rdf-schema#label": [ + { + "@language": "en", + "@value": "Slip Plane Normal" + }, + { + "@language": "de", + "@value": "der Gleitebene Normalvektor" + } + ], + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Vector" + }, + { + "@id": "_:N0bf41ee92227473abbc4c43135c89e6f" } ] }, { - "@id": "_:N7a3966b5529c4337b2089a0563d6454f", + "@id": "_:N0bf41ee92227473abbc4c43135c89e6f", "@type": [ "http://www.w3.org/2002/07/owl#Restriction" ], + "http://www.w3.org/2002/07/owl#onDataRange": [ + { + "@id": "http://www.w3.org/2001/XMLSchema#string" + } + ], "http://www.w3.org/2002/07/owl#onProperty": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#observedBy" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#directionMillerIndice" } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#FieldIonMicroscopy" + "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", + "@value": "1" } ] }, { - "@id": "_:N0081eb8441a44e758d7b1f3992c440aa", + "@id": "http://qudt.org/schema/qudt/description", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#AnnotationProperty" + ] + }, + { + "@id": "http://qudt.org/schema/qudt/quantityValue", + "@type": [ + "http://www.w3.org/2002/07/owl#ObjectProperty" + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#resultsIn", + "@type": [ + "http://www.w3.org/2002/07/owl#ObjectProperty" ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#observedBy" + "@language": "en", + "@value": "resultsIn represents the relationship between dislocation and lattice displacement." } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#TransmissionElectronMicroscopy" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" } - ] - }, - { - "@id": "_:Nb17c8c9bad9a49d49997237c44ce08c2", - "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#resultsIn" + "@language": "en", + "@value": "results in" } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#range": [ { "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDisplacement" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasMathematicalRepresentation", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSegment", "@type": [ "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasMathematicalRepresentation relates the entity with its mathematical representation." + "@value": "hasSegment represents the relationship between discretized line and segment." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has mathematical representation" + "@value": "has segment" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Line" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment" } ], - "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ + "http://www.w3.org/2002/07/owl#inverseOf": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasRepresentation" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#isSegmentOf" } ] }, { - "@id": "http://purl.org/dc/terms/license", - "@type": [ - "http://www.w3.org/2002/07/owl#AnnotationProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDisplacement", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineDefect", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "The displacement of atoms from their perfect lattice sites due to the existence of defects, e.g., point defect, line defect, and grain boundary." + "@value": "Linear or one-dimensional defect around which some of the atoms are misaligned." + }, + { + "@language": "de", + "@value": "Linearer oder eindimensionaler Defekt, um den herum einige Atome falsch ausgerichtet sind." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Lattice Displacement" + "@value": "Line Defect" + }, + { + "@language": "de", + "@value": "der linienhafter Defekt" + } + ], + "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/cdo#CrystallographicDefect" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#Vector", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipDirection", "@type": [ - "http://www.w3.org/2002/07/owl#Class" + "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "(Euclidean) vector is used to represent quantities that both magnitude and direction." + "@value": "hasSlipDirection represents the relationship between the slip plane or slip system with the slip direction." + } + ], + "http://www.w3.org/2000/01/rdf-schema#domain": [ + { + "@id": "_:N3a572196b47e459ca51738a32f61bea1" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "Vector" + "@value": "has slip direction" } ], - "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ - { - "@id": "_:Nb8d11b5b20f54355a5215e14e168235f" - }, + "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "_:N8067eee58ab0410b8a8fb7f8696c8f81" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipDirection" } ], - "http://www.w3.org/2004/02/skos/core#defintion": [ + "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ { - "@language": "en", - "@value": "(Euclidean) vector used to represent quantities that both magnitude and direction." + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLatticeDirection" } ] }, { - "@id": "_:Nb8d11b5b20f54355a5215e14e168235f", + "@id": "_:N3a572196b47e459ca51738a32f61bea1", "@type": [ "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#intersectionOf": [ + "http://www.w3.org/2002/07/owl#unionOf": [ { "@list": [ { - "@id": "_:N9a239d836037481dbb59edb882921619" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" }, { - "@id": "_:Nd2d20a6e05644c6db1fcbeca7a960d38" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem" } ] } ] }, { - "@id": "_:N9a239d836037481dbb59edb882921619", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#movesOn", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#ObjectProperty" ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasVectorComponent" + "@language": "en", + "@value": "movesOn represents the relationship between dislocation and slip plane." } ], - "http://www.w3.org/2002/07/owl#someValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#VectorComponentOfBasis" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" + } + ], + "http://www.w3.org/2000/01/rdf-schema#label": [ + { + "@language": "en", + "@value": "moves on" + } + ], + "http://www.w3.org/2000/01/rdf-schema#range": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" } ] }, { - "@id": "_:Nd2d20a6e05644c6db1fcbeca7a960d38", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasShapeFunction", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#ObjectProperty" ], - "http://www.w3.org/2002/07/owl#allValuesFrom": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#VectorComponentOfBasis" + "@language": "en", + "@value": "hasShapeFunction represents the relationship between discretized line and shape function." } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#hasVectorComponent" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" + } + ], + "http://www.w3.org/2000/01/rdf-schema#label": [ + { + "@language": "en", + "@value": "has shape function" + } + ], + "http://www.w3.org/2000/01/rdf-schema#range": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#ShapeFunction" } ] }, { - "@id": "_:N8067eee58ab0410b8a8fb7f8696c8f81", + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#firstAxisComponent", "@type": [ - "http://www.w3.org/2002/07/owl#Restriction" + "http://www.w3.org/2002/07/owl#DatatypeProperty" + ] + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasLineSense", + "@type": [ + "http://www.w3.org/2002/07/owl#ObjectProperty" ], - "http://www.w3.org/2002/07/owl#onDataRange": [ + "http://www.w3.org/2000/01/rdf-schema#comment": [ { - "@id": "http://www.w3.org/2001/XMLSchema#double" + "@language": "en", + "@value": "hasLineSense represents the relationship between dislocation and line sense." } ], - "http://www.w3.org/2002/07/owl#onProperty": [ + "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/cso#vectorMagnitude" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" } ], - "http://www.w3.org/2002/07/owl#qualifiedCardinality": [ + "http://www.w3.org/2000/01/rdf-schema#label": [ { - "@type": "http://www.w3.org/2001/XMLSchema#nonNegativeInteger", - "@value": "1" + "@language": "en", + "@value": "has line sense" + } + ], + "http://www.w3.org/2000/01/rdf-schema#range": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LineSense" } ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasBurgersVector", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasSlipPlaneNormal", "@type": [ "http://www.w3.org/2002/07/owl#ObjectProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasBurgersVector represents the relationship between dislocation to Burgers vector." + "@value": "hasSlipPlaneNormal represents the relationship between a slip plane or slip system with slip plane normal." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Dislocation" + "@id": "_:Naf0c7c57aa354cf39240a01ef97df8a9" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has Burgers vector" + "@value": "has slip plane normal" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#BurgersVector" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" } ] }, { - "@id": "http://purl.org/vocab/vann/preferredNamespacePrefix", + "@id": "_:Naf0c7c57aa354cf39240a01ef97df8a9", "@type": [ - "http://www.w3.org/2002/07/owl#AnnotationProperty" + "http://www.w3.org/2002/07/owl#Class" + ], + "http://www.w3.org/2002/07/owl#unionOf": [ + { + "@list": [ + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlane" + }, + { + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipSystem" + } + ] + } ] }, { - "@id": "http://www.w3.org/1999/02/22-rdf-syntax-ns#HTML", + "@id": "https://purls.helmholtz-metadaten.de/disos/cso#vectorMagnitude", "@type": [ - "http://www.w3.org/2000/01/rdf-schema#Datatype" + "http://www.w3.org/2002/07/owl#DatatypeProperty" ] }, { @@ -3546,12 +3745,20 @@ { "@language": "en", "@value": "A point of a segment." + }, + { + "@language": "de", + "@value": "Ein Punkt eines Segments." } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", "@value": "Node" + }, + { + "@language": "de", + "@value": "der Knoten" } ], "http://www.w3.org/2000/01/rdf-schema#subClassOf": [ @@ -3566,82 +3773,63 @@ ] }, { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasVectorOrigin", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#slipArea", "@type": [ - "http://www.w3.org/2002/07/owl#ObjectProperty" + "http://www.w3.org/2002/07/owl#DatatypeProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "hasVectorOrigin represents the relationship between lattice plane and origin." + "@value": "slipArea represents the slip area of discretized line in double." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticePlane" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#DiscretizedLine" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "has vector origin" + "@value": "slipArea" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#VectorOrigin" + "@id": "http://www.w3.org/2001/XMLSchema#double" } ] }, { - "@id": "http://qudt.org/schema/qudt/quantityValue", + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasStartNode", "@type": [ "http://www.w3.org/2002/07/owl#ObjectProperty" - ] - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#directionMillerIndice", - "@type": [ - "http://www.w3.org/2002/07/owl#DatatypeProperty" ], "http://www.w3.org/2000/01/rdf-schema#comment": [ { "@language": "en", - "@value": "directionMillerIndice represents Miller indice of lattice direction in string." + "@value": "Sub-property of hasNode that relates the segment with the start node." } ], "http://www.w3.org/2000/01/rdf-schema#domain": [ { - "@id": "_:Ne1ab3e63c91040d398f38d8d0bbc7742" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Segment" } ], "http://www.w3.org/2000/01/rdf-schema#label": [ { "@language": "en", - "@value": "direction miller indice" + "@value": "has start node" } ], "http://www.w3.org/2000/01/rdf-schema#range": [ { - "@id": "http://www.w3.org/2001/XMLSchema#string" + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#Node" } - ] - }, - { - "@id": "_:Ne1ab3e63c91040d398f38d8d0bbc7742", - "@type": [ - "http://www.w3.org/2002/07/owl#Class" ], - "http://www.w3.org/2002/07/owl#unionOf": [ + "http://www.w3.org/2000/01/rdf-schema#subPropertyOf": [ { - "@list": [ - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#LatticeDirection" - }, - { - "@id": "https://purls.helmholtz-metadaten.de/disos/diso#SlipPlaneNormal" - } - ] + "@id": "https://purls.helmholtz-metadaten.de/disos/diso#hasNode" } ] } diff --git a/DISO/dislocation-ontology.n3 b/DISO/dislocation-ontology.n3 index f468d8b..b8ace22 100644 --- a/DISO/dislocation-ontology.n3 +++ b/DISO/dislocation-ontology.n3 @@ -1,22 +1,22 @@ @prefix : . +@prefix dcterms: . @prefix owl: . @prefix qudt: . @prefix rdf: . @prefix rdfs: . @prefix skos: . -@prefix terms: . @prefix vann: . @prefix xsd: . -terms:contributor a owl:AnnotationProperty . +dcterms:contributor a owl:AnnotationProperty . -terms:created a owl:AnnotationProperty . +dcterms:created a owl:AnnotationProperty . -terms:creator a owl:AnnotationProperty . +dcterms:creator a owl:AnnotationProperty . -terms:license a owl:AnnotationProperty . +dcterms:license a owl:AnnotationProperty . -terms:title a owl:AnnotationProperty . +dcterms:title a owl:AnnotationProperty . vann:preferredNamespacePrefix a owl:AnnotationProperty . @@ -28,19 +28,21 @@ skos:defintion a owl:AnnotationProperty . : a owl:Ontology ; rdfs:label "Dislocation Ontology"@en ; - terms:contributor "Said Fathalla"^^xsd:string, + dcterms:contributor "Said Fathalla"^^xsd:string, "Stefan Sandfeld"^^xsd:string ; - terms:created "21.03.2022"@en ; - terms:creator "Ahmad Zainul Ihsan"@en ; - terms:license ; - terms:title "Dislocation Ontology"@en ; + dcterms:created "21.03.2022"@en ; + dcterms:creator "Ahmad Zainul Ihsan"@en ; + dcterms:license ; + dcterms:title "Dislocation Ontology"@en ; vann:preferredNamespacePrefix "DISO"^^xsd:string ; rdfs:seeAlso "https://github.com/Materials-Data-Science-and-Informatics/dislocation-ontology" ; owl:versionInfo 1.0 . a owl:Class ; - rdfs:label "Edge Dislocation"@en ; - rdfs:comment "A dislocation that has a line sense perpendicular to its Burgers vector."@en ; + rdfs:label "die Stufenversetzung"@de, + "Edge Dislocation"@en ; + rdfs:comment "Eine Versetzung, die Burgersvektor und Versetzungslinie stehen senkrecht zueinander"@de, + "A dislocation that has a line sense perpendicular to its Burgers vector."@en ; rdfs:subClassOf ; owl:disjointWith . @@ -123,13 +125,17 @@ qudt:unit a owl:ObjectProperty . a owl:DatatypeProperty . a owl:Class ; - rdfs:label "Line Defect"@en ; - rdfs:comment "Linear or one-dimensional defect around which some of the atoms are misaligned."@en ; + rdfs:label "der linienhafter Defekt"@de, + "Line Defect"@en ; + rdfs:comment "Linearer oder eindimensionaler Defekt, um den herum einige Atome falsch ausgerichtet sind."@de, + "Linear or one-dimensional defect around which some of the atoms are misaligned."@en ; rdfs:subClassOf . a owl:Class ; - rdfs:label "Screw Dislocation"@en ; - rdfs:comment "A dislocation that has a line sense parallel to its Burgers vector."@en ; + rdfs:label "die Schraubenversetzung"@de, + "Screw Dislocation"@en ; + rdfs:comment "Eine Versetzung, die Burgersvektor und Versetzungslinie liegen parallel."@de, + "A dislocation that has a line sense parallel to its Burgers vector."@en ; rdfs:subClassOf . a owl:DatatypeProperty ; @@ -230,12 +236,6 @@ qudt:unit a owl:ObjectProperty . rdfs:label "Vector Component of Basis"@en ; rdfs:comment "Vector components/vector coordinates of particular basis. It has relation to a specific basis."@en ; rdfs:subClassOf [ a owl:Class ; - owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], - [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onDataRange xsd:double ; owl:onProperty ; @@ -246,6 +246,12 @@ qudt:unit a owl:ObjectProperty . owl:onDataRange xsd:double ; owl:onProperty ; owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ] ) ], + [ a owl:Class ; + owl:intersectionOf ( [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ], qudt:Quantity . a owl:ObjectProperty . @@ -253,22 +259,29 @@ qudt:unit a owl:ObjectProperty . a owl:ObjectProperty . a owl:Class ; - rdfs:label "Field Ion Microscopy"@en ; - rdfs:comment "Field Ion Microscopy (FIM) is a microscopy technique that can be used to image the arrangement of atoms."@en ; + rdfs:label "Das Feldionenmikroskop"@de, + "Field Ion Microscopy"@en ; + rdfs:comment "Die Feldionenmikroskopie (FIM) ist eine Mikroskopietechnik, mit der sich die Anordnung von Atomen abbilden lässt."@de, + "Field Ion Microscopy (FIM) is a microscopy technique that can be used to image the arrangement of atoms."@en ; owl:disjointWith . a owl:Class ; - rdfs:label "Lattice Displacement"@en ; - rdfs:comment "The displacement of atoms from their perfect lattice sites due to the existence of defects, e.g., point defect, line defect, and grain boundary."@en . + rdfs:label "die Verschiebung"@de, + "Lattice Displacement"@en ; + rdfs:comment "Die Verschiebung von Atomen von ihren perfekten Gitterpunkt aufgrund des Fehlens von Defekten, z. B. Punktuelle Defekte, Linearedefekte und Korngrenzen."@de, + "The displacement of atoms from their perfect lattice sites due to the existence of defects, e.g., point defect, line defect, and grain boundary."@en . a owl:Class ; - rdfs:label "Shape Function"@en ; - rdfs:comment "The shape function is the function that interpolates the solution between the discrete values obtained at the mesh nodes. In discretized dislocation, the shape function determines the shape of a segment and ultimately determines the shape of the line. Examples of shape function that is used to discretize the dislocation are circular, elliptic, spiral, linear, cubic, and quintic."@en . + rdfs:label "die Formfunktion"@de, + "Shape Function"@en ; + rdfs:comment "Die Formfunktion ist die Funktion, die die Lösung zwischen den an den Netzknoten erhaltenen diskreten Werten interpoliert. Bei der diskretisierten Versetzung bestimmt die Formfunktion die Form eines Segments und letztlich die Form der Linie. Beispiele für Formfunktionen, die zur Diskretisierung der Versetzung verwendet werden, sind kreisförmig, elliptisch, spiralförmig, linear, kubisch und quintisch."@de, + "The shape function is the function that interpolates the solution between the discrete values obtained at the mesh nodes. In discretized dislocation, the shape function determines the shape of a segment and ultimately determines the shape of the line. Examples of shape function that is used to discretize the dislocation are circular, elliptic, spiral, linear, cubic, and quintic."@en . a owl:Class ; - rdfs:label "Ursprung"@de, + rdfs:label "der Ursprung"@de, "Vector Origin"@en ; - rdfs:comment "A fixed point that is needed by the vector to identify other points in the space relative to its origin."@en ; + rdfs:comment "Ein Fixpunkt, der vom Vektor benötigt wird, um andere Punkte im Raum relativ zu seinem Ursprung zu identifizieren."@de, + "A fixed point that is needed by the vector to identify other points in the space relative to its origin."@en ; rdfs:subClassOf . a owl:DatatypeProperty ; @@ -357,27 +370,28 @@ qudt:unit a owl:ObjectProperty . rdfs:label "Crystal Structure"@en ; rdfs:comment "A crystal structure is described by the lattice geometry and atomic arrangements within the unit cell."@en ; rdfs:subClassOf [ a owl:Class ; - owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], - [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ] [ a owl:Restriction ; owl:allValuesFrom ; - owl:onProperty ] ) ] . + owl:onProperty ] ) ], + [ a owl:Class ; + owl:intersectionOf ( [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ] . a owl:Class ; rdfs:label "Lattice"@en ; - rdfs:comment "The mathematical concept to represent the periodicity of a crystal. A lattice defines a periodic arrangement of one or more atoms."@en ; + rdfs:comment "Das mathematische Konzept zur Darstellung der Periodizität eines Kristalls. Ein Gitter definiert eine periodische Anordnung von einem oder mehreren Atomen."@de, + "The mathematical concept to represent the periodicity of a crystal. A lattice defines a periodic arrangement of one or more atoms."@en ; rdfs:subClassOf [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ], [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; @@ -386,19 +400,23 @@ qudt:unit a owl:ObjectProperty . owl:onProperty ] ) ], [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ] . + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ] . a owl:Class ; - rdfs:label "Burgers Vector"@en ; - rdfs:comment "An elementary unit (length order of lattice parameter) of lattice translation. The basic notion of the Burgers vector comes from the closure failure of an initially perfect lattice due to the existence of dislocation. The magnitude and direction of closure failure are characterized by the Burgers vector."@en ; + rdfs:label "der Burgersvektor"@de, + "Burgers Vector"@en ; + rdfs:comment "Eine elementare Einheit (Längenordnung der Gitterparameter) der Gittertranslation. Der grundlegende Begriff des Burgers-Vektors leitet sich aus dem Versagen der Schließung eines ursprünglich perfekten Gitters aufgrund der Existenz von Versetzungen ab. Das Ausmaß und die Richtung des Schließfehlers werden durch den Burgers-Vektor charakterisiert."@de, + "An elementary unit (length order of lattice parameter) of lattice translation. The basic notion of the Burgers vector comes from the closure failure of an initially perfect lattice due to the existence of dislocation. The magnitude and direction of closure failure are characterized by the Burgers vector."@en ; rdfs:subClassOf . a owl:Class ; - rdfs:label "Family of Crystal Direction"@en ; - rdfs:comment "A set of symmetrically equivalent directions in the lattice."@en ; + rdfs:label "die Familie der Gitterrichtung"@de, + "Family of Crystal Direction"@en ; + rdfs:comment "die Menge aller symmetrisch äquivalenten Richtungen."@de, + "A set of symmetrically equivalent directions in the lattice."@en ; rdfs:subClassOf [ a owl:Restriction ; owl:onDataRange xsd:string ; owl:onProperty ; @@ -406,12 +424,16 @@ qudt:unit a owl:ObjectProperty . owl:disjointWith . a owl:Class ; - rdfs:label "Line Sense"@en ; - rdfs:comment "A sense that characterizes a directed line, i.e., it has a start and an end."@en . + rdfs:label "die Versetzunglinie"@de, + "Line Sense"@en ; + rdfs:comment "Ein Element, das eine gerichtete Linie charakterisiert, d. h. sie hat einen Anfang und ein Ende."@de, + "A sense that characterizes a directed line, i.e., it has a start and an end."@en . a owl:Class ; - rdfs:label "Transmission Electron Microscopy"@en ; - rdfs:comment "Transmission electron microscopy (TEM) is a microscopy technique in which a beam of electrons is transmitted through a specimen to form an image. The specimen is often an ultrathin section less than 100 nm thick."@en . + rdfs:label "Die Transmissionselektronenmikroskopie"@de, + "Transmission Electron Microscopy"@en ; + rdfs:comment "Die Transmissionselektronenmikroskopie (TEM) ist eine Mikroskopietechnik, bei der ein Elektronenstrahl durch eine Probe geschickt wird, um ein Bild zu erzeugen. Bei der Probe handelt es sich häufig um einen ultradünnen Schnitt von weniger als 100 nm Dicke."@de, + "Transmission electron microscopy (TEM) is a microscopy technique in which a beam of electrons is transmitted through a specimen to form an image. The specimen is often an ultrathin section less than 100 nm thick."@en . a owl:Class ; rdfs:label "Coordinate Vector"@en ; @@ -452,8 +474,10 @@ qudt:unit a owl:ObjectProperty . skos:defintion "(Euclidean) vector used to represent quantities that both magnitude and direction."@en . a owl:Class ; - rdfs:label "Family of Crystal Plane"@en ; - rdfs:comment "A set of symmetrically equivalent planes in the lattice."@en ; + rdfs:label "die Familie der Gitterebene"@de, + "Family of Crystal Plane"@en ; + rdfs:comment "Steht für Kristallformen, d. h. die Menge aller symmetrisch äquivalenten Flächen."@de, + "A set of symmetrically equivalent planes in the lattice."@en ; rdfs:subClassOf [ a owl:Restriction ; owl:onDataRange xsd:string ; owl:onProperty ; @@ -475,21 +499,27 @@ qudt:unit a owl:ObjectProperty . rdfs:range . a owl:Class ; - rdfs:label "Line"@en ; - rdfs:comment "Mathematical representation of dislocation as 'Line'. An instance of mathematical representation of a dislocation line is an oriented curve parameterized by its arc length."@en ; + rdfs:label "die Linie"@de, + "Line"@en ; + rdfs:comment "Mathematische Darstellung der Versetzung als \"Linie\". Ein Beispiel für die mathematische Darstellung einer Versetzungslinie ist eine orientierte Kurve, die durch ihre Bogenlänge parametrisiert ist."@de, + "Mathematical representation of dislocation as 'Line'. An instance of mathematical representation of a dislocation line is an oriented curve parameterized by its arc length."@en ; rdfs:subClassOf [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ] ; owl:disjointWith . a owl:Class ; - rdfs:label "Slip Direction"@en ; - rdfs:comment "The direction in the slip plane along which plastic deformation takes place. The slip direction corresponds to one of the shortest lattice translation vectors."@en ; + rdfs:label "die Gleitrichtung"@de, + "Slip Direction"@en ; + rdfs:comment "Die Richtung in der Gleitebene, in der die plastische Verformung stattfindet. Die Gleitrichtung entspricht einem der kürzesten Translationsvektoren des Gitters."@de, + "The direction in the slip plane along which plastic deformation takes place. The slip direction corresponds to one of the shortest lattice translation vectors."@en ; rdfs:subClassOf . a owl:Class ; - rdfs:label "Slip System"@en ; - rdfs:comment "A slip system is defined as the set of slip planes with the same unit normal vector and the same slip direction."@en ; + rdfs:label "das Gleitsystem"@de, + "Slip System"@en ; + rdfs:comment "Ein Gleitsystem ist definiert als die Menge der Gleitebenen mit dem gleichen Einheitsnormalvektor und der gleichen Gleitrichtung."@de, + "A slip system is defined as the set of slip planes with the same unit normal vector and the same slip direction."@en ; rdfs:subClassOf [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; @@ -504,14 +534,18 @@ qudt:unit a owl:ObjectProperty . owl:onProperty ] ) ] . a owl:Class ; - rdfs:label "Node"@en ; - rdfs:comment "A point of a segment."@en ; + rdfs:label "der Knoten"@de, + "Node"@en ; + rdfs:comment "Ein Punkt eines Segments."@de, + "A point of a segment."@en ; rdfs:subClassOf ; owl:disjointWith . a owl:Class ; - rdfs:label "Slip Plane Normal"@en ; - rdfs:comment "The unit normal vector of slip planes."@en ; + rdfs:label "der Gleitebene Normalvektor"@de, + "Slip Plane Normal"@en ; + rdfs:comment "Der Einheitsnormalvektor der Gleitebenen."@de, + "The unit normal vector of slip planes."@en ; rdfs:subClassOf [ a owl:Restriction ; owl:onDataRange xsd:string ; owl:onProperty ; @@ -533,102 +567,107 @@ qudt:unit a owl:ObjectProperty . rdfs:range . a owl:Class ; - rdfs:label "Lattice Point"@en ; - rdfs:comment "Lattice point is the point where atom(s) or molecule(s) is located."@en ; + rdfs:label "der Gitterpunkt"@de, + "Lattice Point"@en ; + rdfs:comment "Der Gitterpunkt ist der Punkt, an dem sich ein Atom oder ein Molekül befindet."@de, + "Lattice point is the point where atom(s) or molecule(s) is located."@en ; rdfs:subClassOf . a owl:Class ; - rdfs:label "Segment"@en ; - rdfs:comment "The segment is a part of a line bounded by two distinct end points and may contain points on the line between its endpoints."@en ; + rdfs:label "die Strecke"@de, + "Segment"@en ; + rdfs:comment "Das Segment ist ein Teil einer Linie, der von zwei bestimmten Endpunkten begrenzt wird und Punkte auf der Linie zwischen den Endpunkten enthalten kann."@de, + "The segment is a part of a line bounded by two distinct end points and may contain points on the line between its endpoints."@en ; rdfs:subClassOf [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ], + owl:allValuesFrom ; + owl:onProperty ], [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ], [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] . + owl:allValuesFrom ; + owl:onProperty ] . a owl:Class ; - rdfs:label "Slip Plane"@en ; - rdfs:comment "The crystallographic/lattice plane along which the dislocation line traverses/moves. The slip plane is usually the plane with the highest density of atoms, i.e. most widely spaced."@en ; + rdfs:label "die Gleitebene"@de, + "Slip Plane"@en ; + rdfs:comment "Die kristallografische/Gitterebene, entlang derer die Versetzungslinie verläuft/bewegt wird. Die Gleitebene ist in der Regel die Ebene mit der höchsten Dichte an Atomen, d. h. mit dem größten Abstand."@de, + "The crystallographic/lattice plane along which the dislocation line traverses/moves. The slip plane is usually the plane with the highest density of atoms, i.e. most widely spaced."@en ; rdfs:subClassOf [ a owl:Class ; - owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], - [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ] [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ] ) ], + [ a owl:Class ; + owl:intersectionOf ( [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ], . a owl:Class ; - rdfs:label "Discretized Line"@en ; - rdfs:comment "The numerical representation of the dislocation line that is discretized into the number of segments."@en ; + rdfs:label "die Diskretisierte Linie"@de, + "Discretized Line"@en ; + rdfs:comment "Die numerische Darstellung der Versetzungslinie, die in die Anzahl der Segmente diskretisiert ist."@de, + "The numerical representation of the dislocation line that is discretized into the number of segments."@en ; rdfs:subClassOf [ a owl:Restriction ; + owl:onDataRange xsd:double ; + owl:onProperty ; + owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ], + [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ], [ a owl:Restriction ; owl:allValuesFrom ; - owl:onProperty ], - [ a owl:Restriction ; - owl:onDataRange xsd:double ; - owl:onProperty ; - owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ] ; + owl:onProperty ] ; owl:disjointWith . a owl:Class ; - rdfs:label "Versetzung"@de, + rdfs:label "die Versetzung"@de, "Dislocation"@en ; - rdfs:comment "Linear or one-dimensional defect around which some of the atoms are misaligned. In the mesoscale, a dislocation is a line object that is a boundary separating the regions on the slip plane which have undergone slip from those that have not."@en, + rdfs:comment "Ein linearer oder eindimensionaler Defekt, um den herum einige der Atome falsch ausgerichtet sind. Im Mesoscale ist eine Versetzung ein linienförmiges Objekt, das eine Grenze darstellt, die die Regionen auf der Gleitebene, in denen ein Gleiten stattgefunden hat, von denen trennt, in denen dies nicht der Fall war."@de, + "Linear or one-dimensional defect around which some of the atoms are misaligned. In the mesoscale, a dislocation is a line object that is a boundary separating the regions on the slip plane which have undergone slip from those that have not."@en, "The presence of dislocation introduces local disturbance of the atomic-level geometry."@en ; - rdfs:subClassOf [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ], + rdfs:subClassOf [ a owl:Class ; + owl:intersectionOf ( [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ], + [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ], + [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ], + [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ], [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ] [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ] ) ], - [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ], [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ], [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ], - [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ], - [ a owl:Class ; - owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], + owl:onProperty ; + owl:someValuesFrom ], . a owl:Class ; - rdfs:label "Lattice Plane"@en ; - rdfs:comment "The lattice plane forms an infinitely stretched plane (characterized through a plane normal) that cuts through lattice points such that, again, a regular arrangement of lattice points in the plane occurs."@en ; + rdfs:label "die Gitterebene"@de, + "Lattice Plane"@en ; + rdfs:comment "Die Gitterebene bildet eine unendlich gestreckte Ebene (gekennzeichnet durch eine Ebenennormale), die die Gitterpunkte so schneidet, dass wiederum eine regelmäßige Anordnung der Gitterpunkte in der Ebene entsteht."@de, + "The lattice plane forms an infinitely stretched plane (characterized through a plane normal) that cuts through lattice points such that, again, a regular arrangement of lattice points in the plane occurs."@en ; rdfs:subClassOf [ a owl:Restriction ; owl:onDataRange xsd:string ; owl:onProperty ; owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ], - [ a owl:Class ; - owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ], @@ -638,21 +677,29 @@ qudt:unit a owl:ObjectProperty . owl:someValuesFrom ] [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ] ) ], + [ a owl:Class ; + owl:intersectionOf ( [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ], . a owl:Class ; - rdfs:label "Lattice Direction"@en ; - rdfs:comment "The vector direction inside the lattice that is connecting two lattice points."@en ; - rdfs:subClassOf [ a owl:Restriction ; - owl:onDataRange xsd:string ; - owl:onProperty ; - owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ], - [ a owl:Class ; + rdfs:label "Die Gitterrichtung"@de, + "Lattice Direction"@en ; + rdfs:comment "Die Vektorrichtung innerhalb des Gitters, die zwei Gitterpunkte verbindet."@de, + "The vector direction inside the lattice that is connecting two lattice points."@en ; + rdfs:subClassOf [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ] [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ] ) ], + [ a owl:Restriction ; + owl:onDataRange xsd:string ; + owl:onProperty ; + owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ], , . diff --git a/DISO/dislocation-ontology.nt b/DISO/dislocation-ontology.nt index e47f794..bbd4713 100644 --- a/DISO/dislocation-ontology.nt +++ b/DISO/dislocation-ontology.nt @@ -1,746 +1,793 @@ -_:N9976d7039dce4f38933f94dd509ba170 . - . - . - "hasSlipSystem represents the relationship between a crystal structure and slip system."@en . - . -_:N3de973d3e7054ebea55364fdda687cb1 . -_:Ne54a9f4a21fa4fdbadf4333c1f02b327 _:N7af96299e85a4c7c87c51a1820a0faee . -_:N9143f42660c0440398b5e83177210076 "1"^^ . -_:N69ec563105a94e5b996261ce717952d5 . - . -_:N8067eee58ab0410b8a8fb7f8696c8f81 . - . -_:N72631093466c4388b16db9ff104757da _:N58c11a98a6ba4cdfb8f56d12b9dd00da . -_:N4ddfc2e93a734acfa5b51675055b43c5 . -_:N58e904790401403eacf561ffa99c01d3 _:N5dfce0c22910490fbb59917bd7a6208e . -_:Nfb7e8902a5c64f60b2074f77607ae551 . - "has family crystal plane"@en . -_:Nf087e059f88147e68c414e60c7417f1d . -_:N2f71eba7ef6d41cf8e31f4c1339ea52c . - "results in"@en . - . -_:N0fb09cb2cec64aa9936fa2966182dc71 _:N6acd57a2201c4df6b292540ede75b971 . - . - _:N731da5f63d884bbc8054a7a7882c7a21 . - _:N57ab473b761f4fdb95ea184c0c4a240c . -_:N6a8f6c39d6c24c7fa05a94396c5ff382 . - . -_:N9fae0b291d7741cda6246a0c13a70729 . -_:Nc06c7b19a5094bb198563538cda26320 . -_:N1e3797178e6041a986e1b27fb6acf9e4 "1"^^ . -_:N3e76cd3b4a1342cb8d12b4b48822cc08 . -_:Nace8e33bde9549d3a3bf9b8b72eea34e . -_:N0081eb8441a44e758d7b1f3992c440aa . - _:N3052a2ab892c4d739f0c4b6dc6091424 . - _:Nf90e8c2015f74eccb0edcd4a13473ee0 . -_:N43726ca1664a43c595b93d21d4943f23 _:N2649174b8ea842c39e7112a7e4af376b . -_:N9a239d836037481dbb59edb882921619 . - "planeMillerIndice represents Miller indice of lattice plane in string."@en . -_:N7b4f7dbd2d2c4f25846efb4845aaf7ff . - "Shape Function"@en . -_:Nbb85ba5f875e4cda8750fddb10e469fc . - _:N1e3797178e6041a986e1b27fb6acf9e4 . -_:Nd5d1cf5360844a41a7d38d2c3ed234e2 . -_:N2406fdbcf3564af0b863198a8b49b08c _:Ne9eae63d0b5a4397ab324d5dc4aac238 . -_:N340ff334391a4f31981e3e64c6eb199f . -_:N0c2bba45bd024fb5b828c9934ef1088b . -_:Nb04715cd11404335beefe40033731ec6 . -_:Nb4ead77f129f47c9b8d59c3e7681a17b . - . - . -_:N86febeb306b042138e67acc6842c9ea1 . -_:N5c956b250783410c9aabf09b45660e55 _:N72ea5d58bed34768b7f403cf3f0c1ba8 . -_:N7a3966b5529c4337b2089a0563d6454f . -_:N70236fff26af4c8db0caabd06eb6d3c9 _:N0fb09cb2cec64aa9936fa2966182dc71 . -_:N6283bdc0d36f4a8697b159cbafbaeece . - "A point of a segment."@en . - . -_:N3982197fe15343f79b7f2befdda9def5 . - "hasBurgersVector represents the relationship between dislocation to Burgers vector."@en . - "Sub-property of hasNode that relates the segment with the start node."@en . - . - . -_:N1e3797178e6041a986e1b27fb6acf9e4 . -_:N3c1db54a03dd4ccd9334e2b347c0857d . - . -_:N731da5f63d884bbc8054a7a7882c7a21 . - "moves on"@en . -_:N9fae0b291d7741cda6246a0c13a70729 . - _:N2f71eba7ef6d41cf8e31f4c1339ea52c . - "A coordinate vector according to standard basis, i.e., e_x (1, 0, 0), e_y(0, 1, 0), and e_z (0, 0, 1)."@en . -_:N6a8f6c39d6c24c7fa05a94396c5ff382 . -_:Nf9c3d2e595a841c1a84518a0fc92188a . - "(Euclidean) vector is used to represent quantities that both magnitude and direction."@en . -_:Nb8d11b5b20f54355a5215e14e168235f _:N069755464e20449eb0b9fb6b79ba20df . - "Slip Plane Normal"@en . -_:N91e84572d29c4f97becb3df0dce22c69 . - "A fixed point that is needed by the vector to identify other points in the space relative to its origin."@en . -_:N3982197fe15343f79b7f2befdda9def5 _:N032a2381483b43ad9215047883b8dddd . -_:N8c4ab711ca8840618bf8b6e98ca032d6 . - . -_:Na47a97765c804d91805e70596708f90c . - "The displacement of atoms from their perfect lattice sites due to the existence of defects, e.g., point defect, line defect, and grain boundary."@en . -_:N3706cc0565324baab523c8909d89452a . -_:Na15756b089a741dabced2b4b692d2132 _:N04a78b77bf224962a173308cf318295f . - "family plane miller indice"@en . -_:N7c3fbd35e0da49a2affaa6f90712d243 . -_:N50aad53684ce4467b9c0bc10d7bd170d . - . -_:N1942bbaa283549c7810714ca28ed7e04 _:Nd79539eebed24fcc9edde669d4dc0d3b . - . - . - _:N340ff334391a4f31981e3e64c6eb199f . -_:N9f3b437c758c4aca8adf64b46baac169 _:Nae73e3f6cc70438ebe306d4e4c8dc2f4 . -_:N1b66d0b2701747c6a20c826b7d6a3712 . -_:Ncba57060168040689a5fb56eba4df0e4 . - . -_:Nd40df2116b94438fbea33cea71686caf _:N495166f2a81d4926b0f825ff1b3072a8 . -_:Ne0f839bc866b4f24ab0950bcc01dab65 _:N33dc055c814945ad844926d1a58135a6 . - "Euclidean vector that represents the position of a point P in space in relation to an arbitrary reference origin O."@en . - "Linear or one-dimensional defect around which some of the atoms are misaligned."@en . -_:N7c3fbd35e0da49a2affaa6f90712d243 . -_:Ne1ab3e63c91040d398f38d8d0bbc7742 . - . - "has slip plane normal"@en . - . - "Quantity Kind" . - "hasLatticeDirection represents the relationship between a lattice or a lattice plane with lattice directions."@en . - . -_:N9143f42660c0440398b5e83177210076 . -_:Nd85c3c4fbaf44b0381d5ec23d7c5e635 "1"^^ . - _:N6283bdc0d36f4a8697b159cbafbaeece . - "Field Ion Microscopy"@en . -_:N6f04a78adea944e0ba81ffaa8e033396 . - "has segment"@en . - . -_:Nddc6c50d136848b988db2eed4a79ed51 _:Nf087e059f88147e68c414e60c7417f1d . -_:N6acd57a2201c4df6b292540ede75b971 . - . - "is segment of"@en . -_:Nbb7a09c4abb6498f8fb870010d2cba00 . + . +_:Nda84e78ca44a4297acc0aa9f2b1e15cb _:Na74d7fc7044848ccb7dce41902fae685 . + . + "die Verschiebung"@de . + "has line sense"@en . + . + "Ein Fixpunkt, der vom Vektor benötigt wird, um andere Punkte im Raum relativ zu seinem Ursprung zu identifizieren."@de . + _:N66c768296dba4dab9c7b4b7c4173e0ce . +_:Nda84e78ca44a4297acc0aa9f2b1e15cb _:Nb90894e1061d4739ba76682b974e1066 . +_:Ne109861a642d4cbb9513e6f7e33659cf _:N986a7bb7121b4697a05a5f98f7cb4efd . "The presence of dislocation introduces local disturbance of the atomic-level geometry."@en . -_:N35f079addcd640deb8c35928eeefbb57 . - . -_:N2f71eba7ef6d41cf8e31f4c1339ea52c "1"^^ . -_:Nee968cdde8914ad795fe56c5ff95a63d . - . - . -_:Nb8d11b5b20f54355a5215e14e168235f . -_:N2e1e5c0b965d421a9cf8a7b88c139932 _:N58e904790401403eacf561ffa99c01d3 . - _:Nc0f19a456b57400880369f2a4a0d5465 . -_:N3206dbf446d44d28987f79be151d3220 . -_:Na47a97765c804d91805e70596708f90c "1"^^ . - _:Nabb9730925ac4e3f9b465b75304607e2 . -_:Nb691ae32791445e1914d143556f10297 _:Nf9c2e1205f1b4ca9acd02b8852a2d254 . - . + "familyPlaneMillerIndice represents a set of Miller indice of lattice plane in string."@en . +_:N81e9f63cd942486b83d7f2d8d40c32fa . + . +_:N3a572196b47e459ca51738a32f61bea1 _:N3e8caa684e2b478c83e9f7446c48f47f . + _:N959b13206cb942b4b9cfb4bf619cfb8b . . -_:Nd396ef79fc0d466799f6f17650a596fd _:Nf5de547810a641f180660c662792bfc4 . -_:N3206dbf446d44d28987f79be151d3220 . -_:Ndc1bbc87135a47f6bc646366df5cd22d _:N3e76cd3b4a1342cb8d12b4b48822cc08 . - "The numerical representation of the dislocation line that is discretized into the number of segments."@en . - . -_:N7bda779e7dda4c1eb04293f66347b776 . - "An elementary unit (length order of lattice parameter) of lattice translation. The basic notion of the Burgers vector comes from the closure failure of an initially perfect lattice due to the existence of dislocation. The magnitude and direction of closure failure are characterized by the Burgers vector."@en . - . - _:N73eddba0374d4fe3aafd211026cd2aea . -_:N6f88757425a44d51b8a715a3121e2880 . - "The unit normal vector of slip planes."@en . - _:N3982197fe15343f79b7f2befdda9def5 . - "has lattice direction"@en . - _:Nace8e33bde9549d3a3bf9b8b72eea34e . - . -_:Nc60fccdc41884608924ded5102295d1a _:N1e3672ef16284178b3834f5d5f09911b . -_:N64e6f34c17f445239b65cd3eaeff7773 . -_:N0c2bba45bd024fb5b828c9934ef1088b . + . + "Unit" . +_:Ncd75fc327a34401d81b0424dd70020e2 . +_:N986a7bb7121b4697a05a5f98f7cb4efd . + "die Menge aller symmetrisch äquivalenten Richtungen."@de . + "has family crystal plane"@en . +_:N610b52cf560e48288f8f757dd1d3e67b . +_:Na89b613778624b7aaa67c7a3e5f201a2 . + "Vector Component of Basis"@en . +_:Nbcea203d899c4aa287bd928b0c2bf705 . + . "Transmission electron microscopy (TEM) is a microscopy technique in which a beam of electrons is transmitted through a specimen to form an image. The specimen is often an ultrathin section less than 100 nm thick."@en . - "Lattice"@en . -_:N6c28766f53a1436c92f801d442418f8c . -_:N91cfed63eac94f2e81c2d077c5e1d7bf . -_:N232acc7cd4084867b71cff243fb8b5b2 _:N6a2d93a616414dd7b488da75e9fa8f5e . -_:N3de973d3e7054ebea55364fdda687cb1 . - . - "Lattice point is the point where atom(s) or molecule(s) is located."@en . -_:N83093f2e9b9c439a8120afaecf530012 . - _:Nd85c3c4fbaf44b0381d5ec23d7c5e635 . - _:Nb17c8c9bad9a49d49997237c44ce08c2 . - . -_:N495166f2a81d4926b0f825ff1b3072a8 . - _:N91cfed63eac94f2e81c2d077c5e1d7bf . -_:Nfb7e8902a5c64f60b2074f77607ae551 _:N6a8f6c39d6c24c7fa05a94396c5ff382 . -_:Nb17c8c9bad9a49d49997237c44ce08c2 . -_:N6283bdc0d36f4a8697b159cbafbaeece . - "The crystallographic/lattice plane along which the dislocation line traverses/moves. The slip plane is usually the plane with the highest density of atoms, i.e. most widely spaced."@en . -_:Na2640772771e4ed2bc061840427205fb . - _:N232acc7cd4084867b71cff243fb8b5b2 . -_:Nd977d5b0ae26418f94dd6bda3d6701c9 . - _:N7bda779e7dda4c1eb04293f66347b776 . - "A unit of measure, or unit, is a particular quantity value that has been chosen as a scale for measuring other quantities the same kind (more generally of equivalent dimension). For example, the meter is a quantity of length that has been rigorously defined and standardized by the BIPM (International Board of Weights and Measures). Any measurement of the length can be expressed as a number multiplied by the unit meter. More formally, the value of a physical quantity Q with respect to a unit (U) is expressed as the scalar multiple of a real number (n) and U, as \\(Q = nU\\)."^^ . - "Lattice Point"@en . - . -_:Nd2d20a6e05644c6db1fcbeca7a960d38 . -_:Nb8f737636b0f42d7a1ba0dbedc700a99 . - . - . -_:N9976d7039dce4f38933f94dd509ba170 . -_:Nd4ba6059ea9445a48318ac4f3943128b . - _:Nc60fccdc41884608924ded5102295d1a . -_:N3052a2ab892c4d739f0c4b6dc6091424 . -_:Nbb85ba5f875e4cda8750fddb10e469fc . -_:N3de973d3e7054ebea55364fdda687cb1 . - . - _:Na524ee5485bf4b3e94850c29acd2dc22 . - _:Nd977d5b0ae26418f94dd6bda3d6701c9 . - "(Euclidean) vector used to represent quantities that both magnitude and direction."@en . -_:N19f6b7aaa8a54dc98ba2ed783c1607ff . -_:Nd85c3c4fbaf44b0381d5ec23d7c5e635 . -_:N3206dbf446d44d28987f79be151d3220 . -_:Nfc7dce1da9e344d7b267da8e615c0a71 . -_:Ncba57060168040689a5fb56eba4df0e4 . -_:Nf5de547810a641f180660c662792bfc4 . -_:N2f71eba7ef6d41cf8e31f4c1339ea52c . - . - _:N0081eb8441a44e758d7b1f3992c440aa . - . - _:N8067eee58ab0410b8a8fb7f8696c8f81 . - . -_:Nae73e3f6cc70438ebe306d4e4c8dc2f4 _:Ne4414066db114ad49f50040d71a0932f . -_:N58e904790401403eacf561ffa99c01d3 _:Nee968cdde8914ad795fe56c5ff95a63d . - . + . + _:Ne70b72e2833b4f8cbbf5b4484dc48aca . +_:N19873cefc9544b90b4f34d3fefd9dff3 . +_:N3405dde62c6b42f185de934626f6d457 . . - . - _:N7a3966b5529c4337b2089a0563d6454f . -_:Nc0f19a456b57400880369f2a4a0d5465 _:N0c2eea833c19426abac07d5b00242d67 . -_:Ne4414066db114ad49f50040d71a0932f . -_:N054c4c3e25cf4ec2adb83ea0a64031d5 . -_:N64e6f34c17f445239b65cd3eaeff7773 . -_:N340ff334391a4f31981e3e64c6eb199f _:Ndc1bbc87135a47f6bc646366df5cd22d . - "The vector direction inside the lattice that is connecting two lattice points."@en . -_:N9f3b437c758c4aca8adf64b46baac169 _:Nc06c7b19a5094bb198563538cda26320 . -_:N70236fff26af4c8db0caabd06eb6d3c9 _:N3de973d3e7054ebea55364fdda687cb1 . -_:N8bca22e9d8164c9d9ccb1c7e30549a6c . - . - "Vector"@en . - . -_:Nd94baa99db6c4c279a5767a276eefdf4 . -_:Nd0eee09534bd433a9f001e1b730ebbc9 . -_:N3e76cd3b4a1342cb8d12b4b48822cc08 . - . -_:N9143f42660c0440398b5e83177210076 . -_:N7c3fbd35e0da49a2affaa6f90712d243 . - . -_:Nbda82689e6af4a9c9ee2837de048534d . -_:N5dfce0c22910490fbb59917bd7a6208e . -_:Ne54a9f4a21fa4fdbadf4333c1f02b327 . - . - "has start node"@en . - . - "has representation"@en . - "Line Defect"@en . -_:Nd396ef79fc0d466799f6f17650a596fd _:Nddc6c50d136848b988db2eed4a79ed51 . - "Vector Origin"@en . - _:N9143f42660c0440398b5e83177210076 . -_:Na983ec5cb7394273a6eac529645feedd . -_:N377f6241abe64a7b8e472b741f1d9e41 _:N64e6f34c17f445239b65cd3eaeff7773 . -_:N1e3672ef16284178b3834f5d5f09911b _:N35f079addcd640deb8c35928eeefbb57 . - . -_:Nb2a1a5ef24544b11ae11dacf20507afc . +_:N1e250b3e777345f3aaff82c071777be8 . + "der Knoten"@de . +_:Nb607cd60f6be46268f33f8fdbc318b1e . + _:N30c92f62739947e8a41cb92e9e674ebe . + . +_:Ne9ab082670514909a2dd2d5354582497 . + . + "Ein Element, das eine gerichtete Linie charakterisiert, d. h. sie hat einen Anfang und ein Ende."@de . +_:Ne31959bc25d943038d1613fc01740ee8 . +_:N38a9220cf42b4b9faf5ba09c20ef998e . + . + "21.03.2022"@en . +_:N305bb5b827974e1192ff9e78299cbba2 . + "https://github.com/Materials-Data-Science-and-Informatics/dislocation-ontology" . + . +_:N2e0524ca4b1e4928b3255cd34a47e75f . +_:N959b13206cb942b4b9cfb4bf619cfb8b . + . + _:Nab4c4e3a52b14be597385c49471b9187 . +_:N7e2e961bdc2f4372bb17d4b3acc779fa _:N2e0524ca4b1e4928b3255cd34a47e75f . + . + . + "hasShapeFunction represents the relationship between discretized line and shape function."@en . + . +_:Ncd75fc327a34401d81b0424dd70020e2 . +_:Ndd560ed043c54f4d940c3a87fc405dff . +_:N88b6ebc467a147a88520d328c337cf49 . +_:Nab4c4e3a52b14be597385c49471b9187 . + . + . + . +_:N3de65d4c362740c68f7136c466a053f7 _:N1b301fd8c4ed4d3f92b6ad4cad48ada5 . +_:Nd00ee062c9f9405eb4333efa3724ca4a _:Naadccbbf9eb2432d838e72237571f312 . +_:N126adaa15a114897a068c0f7a434884c _:N0c6a3157bf564bbdb3c0372ccc5a1c8b . +_:N39fc8d5a45274c65abc42d76a779bb71 . + . +_:N72a6ac6f3e0443cf8b033a5d5c7b644c . + "Ein Punkt eines Segments."@de . +_:N91a6ab1bdab441559b7bc5fffb80a8f5 _:Ne20e29c008964663931b2ef4808fdd48 . +_:Ne70b72e2833b4f8cbbf5b4484dc48aca . + "die Linie"@de . +_:N50943b98402e430080502e11fddcc5a2 . + . + . + . + "movesOn represents the relationship between dislocation and slip plane."@en . + . +_:N32e6587a1f6a41b89fac7a7c01eddc66 . +_:N305bb5b827974e1192ff9e78299cbba2 . +_:N26035516785b48dcbfb5f44642a04d7f . + "Line Sense"@en . + _:Nb4d255120bc94efc9cd3a33ad197bf5e . . -_:Nb04715cd11404335beefe40033731ec6 _:N88b891d337944b409ac7e9422e61471d . - "hasSlipDirection represents the relationship between the slip plane or slip system with the slip direction."@en . - "direction miller indice"@en . -_:N6a8f6c39d6c24c7fa05a94396c5ff382 . - "Burgers Vector"@en . -_:N72ea5d58bed34768b7f403cf3f0c1ba8 _:Nf455845696c548cc809fcf0867ed22f8 . - "A basis defines a spatial unit used to express fractional coordinates."@en . - . -_:N557f07a0608442cdb9ecd98d8ac00d95 . -_:Na983ec5cb7394273a6eac529645feedd . - . - "Sub-property of hasNode that relates the segment with the end node."@en . - "has mathematical representation"@en . -_:N8067eee58ab0410b8a8fb7f8696c8f81 . - . -_:Na63f532a30424a95a4300dbd44562b46 . - "familyPlaneMillerIndice represents a set of Miller indice of lattice plane in string."@en . + "Slip Plane Normal"@en . +_:N12fa65a3dcf3431293adc25bedd040f5 . + "Point"@en . + . . - "hasLatticePoint represents the relationship between a lattice or lattice plane or lattice direction with lattice point."@en . -_:N69ec563105a94e5b996261ce717952d5 _:Nab8438c2b1044872bc393ebe66b273f3 . -_:Nabb9730925ac4e3f9b465b75304607e2 . +_:Nd66cbbdd9cd14790b29d67cd86f7bc6d _:N610b52cf560e48288f8f757dd1d3e67b . + . + . + "Node"@en . + "family direction miller indice"@en . + "Quantity Kind" . + . + "(Euclidean) vector is used to represent quantities that both magnitude and direction."@en . +_:N4f4f6b2a73a04e2eb4c4b462455477e2 . + . +_:N6d93685d1d6c4379990b0ef6ed71e5ad _:Nc97887ba451e4537895c9962c29d860d . + "Position Vector"@en . + . +_:Ndd560ed043c54f4d940c3a87fc405dff . +_:N5201186950c84c0f8df6c4e59de096f0 . + "has shape function"@en . +_:Nbf83c6cd6eee4b859361dbcf2bb79804 . + "Die Transmissionselektronenmikroskopie"@de . +_:Nf691d0eb07f840a69f872560868e21bb "1"^^ . +_:N9a1332a504594f0095e44d1e1036cfc2 _:Nda84e78ca44a4297acc0aa9f2b1e15cb . + "hasLatticePlane represents the relationship between a lattice and lattice planes."@en . + "plane miller indice"@en . +_:Nbcea203d899c4aa287bd928b0c2bf705 . +_:N021bbc033483460faf5f5d935b1f65db . + . + . + _:Naf0c7c57aa354cf39240a01ef97df8a9 . +_:Na89b613778624b7aaa67c7a3e5f201a2 . + _:Ne31959bc25d943038d1613fc01740ee8 . + "Linearer oder eindimensionaler Defekt, um den herum einige Atome falsch ausgerichtet sind."@de . + . + "1.0"^^ . +_:N4f4f6b2a73a04e2eb4c4b462455477e2 . +_:Nb1bbbdd328854c1d95f32026b6806b4c . + . . -_:N05cd3c0d17614bd2a78945cedddcfcf7 _:N3206dbf446d44d28987f79be151d3220 . - . -_:Ndc1bbc87135a47f6bc646366df5cd22d _:N8bca22e9d8164c9d9ccb1c7e30549a6c . -_:Nd2d20a6e05644c6db1fcbeca7a960d38 . -_:Ne9eae63d0b5a4397ab324d5dc4aac238 . - _:N351157f6253341e5aa463be57d4f2d8c . - . -_:N1942bbaa283549c7810714ca28ed7e04 . - "Linear or one-dimensional defect around which some of the atoms are misaligned. In the mesoscale, a dislocation is a line object that is a boundary separating the regions on the slip plane which have undergone slip from those that have not."@en . - _:N060f563785994bc984b13af1477770cb . - "Lattice Displacement"@en . + . +_:N1f69bec066ab485f82fba109a588b433 . +_:Ne390fbf9b65748ebaafcb4f0ee7663d7 . + "Lattice point is the point where atom(s) or molecule(s) is located."@en . +_:N7e2e961bdc2f4372bb17d4b3acc779fa . + "planeMillerIndice represents Miller indice of lattice plane in string."@en . + "family plane miller indice"@en . +_:Nb87dc81d738f4b139cd9e840b1fb9b26 . + . +_:N3de65d4c362740c68f7136c466a053f7 . + _:Na89b613778624b7aaa67c7a3e5f201a2 . + "has lattice direction"@en . +_:Nfd282042e54e4780b4d8a9b2d4109530 _:N126adaa15a114897a068c0f7a434884c . "The crystallographic defect is a lattice irregularity that has one or more dimensions on the order of an atomic diameter."@en . -_:Nc86d0d331c0740329f47f7274b79fbd3 . -_:N878c65810eb64b1199a105dd3d07fa88 _:N9f3b437c758c4aca8adf64b46baac169 . -_:N3052a2ab892c4d739f0c4b6dc6091424 "1"^^ . -_:Ne0f839bc866b4f24ab0950bcc01dab65 . -_:N73eddba0374d4fe3aafd211026cd2aea . -_:N6a2d93a616414dd7b488da75e9fa8f5e _:Nbda82689e6af4a9c9ee2837de048534d . - . -_:N50aad53684ce4467b9c0bc10d7bd170d . +_:N1b29ab893b924e289d3f3786e4877ee0 . + . + "Die Richtung in der Gleitebene, in der die plastische Verformung stattfindet. Die Gleitrichtung entspricht einem der kürzesten Translationsvektoren des Gitters."@de . +_:N66c768296dba4dab9c7b4b7c4173e0ce . + "hasVectorOrigin represents the relationship between lattice plane and origin."@en . + "The shape function is the function that interpolates the solution between the discrete values obtained at the mesh nodes. In discretized dislocation, the shape function determines the shape of a segment and ultimately determines the shape of the line. Examples of shape function that is used to discretize the dislocation are circular, elliptic, spiral, linear, cubic, and quintic."@en . +_:N43f2d0f5dfb54739b42f85a70955c5d3 . + . + _:N39fc8d5a45274c65abc42d76a779bb71 . + "Der Gitterpunkt ist der Punkt, an dem sich ein Atom oder ein Molekül befindet."@de . + . +_:Nb25256376255457db66137318bd0a3ec . +_:Na89b613778624b7aaa67c7a3e5f201a2 . + "The vector direction inside the lattice that is connecting two lattice points."@en . +_:N43f2d0f5dfb54739b42f85a70955c5d3 _:N91a6ab1bdab441559b7bc5fffb80a8f5 . +_:Nbcea203d899c4aa287bd928b0c2bf705 . "observedBy represents the relationship between dislocation and microscopy techniques, e.g., TEM, FIM, etc."@en . -_:Nc06c7b19a5094bb198563538cda26320 . -_:N232acc7cd4084867b71cff243fb8b5b2 . + "results in"@en . +_:N5d0d8e6786f34c83a35dc6532251a623 . + . + . + . + . + . +_:N31df1db37abf42f69eb213ea424bf17a . + "Slip System"@en . +_:N8149e94feef446d78c5ea5e21c95c345 . + . + "directionMillerIndice represents Miller indice of lattice direction in string."@en . +_:Nab4c4e3a52b14be597385c49471b9187 . + _:N18d278094cb8403d89834c2b467e778e . + "der Gleitebene Normalvektor"@de . +_:N9ce3112eb34a489885e475c71f886457 . + "has slip plane normal"@en . + "is segment of"@en . +_:Nc0fed22bcacf4f768c27f53bd730ef7d _:N3107b8f51b06414a9ebc3fec1be07e0c . + "Das Feldionenmikroskop"@de . + "Linear or one-dimensional defect around which some of the atoms are misaligned."@en . + "das Gleitsystem"@de . + _:N3405dde62c6b42f185de934626f6d457 . + "A crystal structure is described by the lattice geometry and atomic arrangements within the unit cell."@en . + . +_:Naf0c7c57aa354cf39240a01ef97df8a9 . + . + . + . + "has end node"@en . +_:Nb4d255120bc94efc9cd3a33ad197bf5e . + _:N6d6dc8dae7da4700936f1378e252d04c . +_:N1f69bec066ab485f82fba109a588b433 . + "die Strecke"@de . + . +_:N10a7fae033b04f1aa6da008baf0f8104 . + . + "A Quantity Value expresses the magnitude and kind of a quantity and is given by the product of a numerical value n and a unit of measure U. The number multiplying the unit is referred to as the numerical value of the quantity expressed in that unit. Refer to NIST SP 811 section 7 for more on quantity values."^^ . + "Line Defect"@en . +_:Nb90894e1061d4739ba76682b974e1066 _:N72a6ac6f3e0443cf8b033a5d5c7b644c . +_:Na2e8bfa53c214708bb6870f1d7ca4055 . +_:Ncd75fc327a34401d81b0424dd70020e2 . +_:N959b13206cb942b4b9cfb4bf619cfb8b . +_:N986a7bb7121b4697a05a5f98f7cb4efd . + "has slip system"@en . + . +_:N0c6a3157bf564bbdb3c0372ccc5a1c8b . + _:Ndd560ed043c54f4d940c3a87fc405dff . + . +_:Nfe3b95c7cc364ee8810569f3529eb90b _:N10a7fae033b04f1aa6da008baf0f8104 . +_:Ne75bea63dabd4ecd9207afa1fbef32dc . . -_:N9976d7039dce4f38933f94dd509ba170 "1"^^ . - _:N0c2bba45bd024fb5b828c9934ef1088b . -_:N4ddfc2e93a734acfa5b51675055b43c5 _:N3c1db54a03dd4ccd9334e2b347c0857d . -_:Nddc6c50d136848b988db2eed4a79ed51 _:N9976d7039dce4f38933f94dd509ba170 . -_:Nd85c3c4fbaf44b0381d5ec23d7c5e635 . - . - "Quantity value" . - "Segment"@en . -_:N2649174b8ea842c39e7112a7e4af376b . - "A Quantity Kind is any observable property that can be measured and quantified numerically. Familiar examples include physical properties such as length, mass, time, force, energy, power, electric charge, etc. Less familiar examples include currency, interest rate, price to earning ratio, and information capacity."^^ . -_:N19f6b7aaa8a54dc98ba2ed783c1607ff . -_:Nd977d5b0ae26418f94dd6bda3d6701c9 . - . -_:Nb2a1a5ef24544b11ae11dacf20507afc _:N50aad53684ce4467b9c0bc10d7bd170d . - . + . +_:N9dd1ba26faa741d2800ab666e3e50641 . + . + . +_:N8fca7218ddaf4af2aca1d140da17086c _:Nc4b6c133576a4d2899b019a7055d3cb4 . +_:N2e0524ca4b1e4928b3255cd34a47e75f . + _:Nb87dc81d738f4b139cd9e840b1fb9b26 . + "The segment is a part of a line bounded by two distinct end points and may contain points on the line between its endpoints."@en . +_:Nb1bbbdd328854c1d95f32026b6806b4c "1"^^ . +_:N00fd6cd0010544aca01c04344aa74533 . +_:N60afc15035f74d61a824400d77ea64c1 . + "The lattice plane forms an infinitely stretched plane (characterized through a plane normal) that cuts through lattice points such that, again, a regular arrangement of lattice points in the plane occurs."@en . + "hasFamilyCrystalDirection represents the relationship between lattice direction and family of crystal direction."@en . +_:N26035516785b48dcbfb5f44642a04d7f . +_:N32e6587a1f6a41b89fac7a7c01eddc66 _:N8fca7218ddaf4af2aca1d140da17086c . + "Die Gitterebene bildet eine unendlich gestreckte Ebene (gekennzeichnet durch eine Ebenennormale), die die Gitterpunkte so schneidet, dass wiederum eine regelmäßige Anordnung der Gitterpunkte in der Ebene entsteht."@de . +_:N1162741a59ef4698a38be258ed8c9146 _:Nfcb3c23f2c534211a18b51ed0eb0f87e . +_:N47c9c057da7943c7a4cbfa7627effa38 . + "hasLatticePoint represents the relationship between a lattice or lattice plane or lattice direction with lattice point."@en . +_:N6fe3a8d3eb604dc383a4eb47894a38e8 _:N3692740c2eea4703b7eabd6bf7a5c991 . +_:Ne31959bc25d943038d1613fc01740ee8 . +_:N2810e11531b04e61960f592efa239978 . + "has segment"@en . + "Stefan Sandfeld"^^ . +_:Ne9ab082670514909a2dd2d5354582497 . +_:N5d0d8e6786f34c83a35dc6532251a623 "1"^^ . + . +_:N1b301fd8c4ed4d3f92b6ad4cad48ada5 _:N85f2d8c2eaa14d0681157737915be403 . +_:N30c92f62739947e8a41cb92e9e674ebe . + "Die kristallografische/Gitterebene, entlang derer die Versetzungslinie verläuft/bewegt wird. Die Gleitebene ist in der Regel die Ebene mit der höchsten Dichte an Atomen, d. h. mit dem größten Abstand."@de . +_:Na2e8bfa53c214708bb6870f1d7ca4055 . +_:Nc97887ba451e4537895c9962c29d860d . + _:N83011a51f2804c03a81e52046ebeb628 . +_:N3405dde62c6b42f185de934626f6d457 . +_:Nc306b156d450407499215e703e317d6d _:Nee9a19bf99b94bee987c7cd5db713381 . +_:Nf691d0eb07f840a69f872560868e21bb . + _:N215e1587c5ba4693b12e5d94864d9128 . +_:Ndbe5f861ee0542849f142d509ca2bc37 . +_:Nb5cfb9e4ade246b880be4c06727aa67a . + "A coordinate vector according to standard basis, i.e., e_x (1, 0, 0), e_y(0, 1, 0), and e_z (0, 0, 1)."@en . + "has mathematical representation"@en . + _:N7231bfabf8d743268f50b07e5cc94aa8 . +_:N10a7fae033b04f1aa6da008baf0f8104 . +_:N0bf41ee92227473abbc4c43135c89e6f . + _:Nbec831869f0843a5b1f68c9c6dcb145e . +_:N95b0dc96d2e441ab8af2d53e34b42e55 . + "Transmission Electron Microscopy"@en . + . + . +_:N8149e94feef446d78c5ea5e21c95c345 _:N4f4f6b2a73a04e2eb4c4b462455477e2 . +_:N47c9c057da7943c7a4cbfa7627effa38 . + . . - "A set of symmetrically equivalent directions in the lattice."@en . - "1.0"^^ . - "slipArea represents the slip area of discretized line in double."@en . -_:Nb4ead77f129f47c9b8d59c3e7681a17b . - "hasShapeFunction represents the relationship between discretized line and shape function."@en . -_:Nd79539eebed24fcc9edde669d4dc0d3b _:N83093f2e9b9c439a8120afaecf530012 . -_:N4569f70478c34d6693e1a5c9ade42dd5 . - "Vector Component of Basis"@en . - . - "has slip plane"@en . - . -_:N86febeb306b042138e67acc6842c9ea1 _:Nd2d20a6e05644c6db1fcbeca7a960d38 . -_:Nd85c3c4fbaf44b0381d5ec23d7c5e635 . - _:N6c28766f53a1436c92f801d442418f8c . -_:N91e84572d29c4f97becb3df0dce22c69 . - . -_:Nfc7dce1da9e344d7b267da8e615c0a71 . - . -_:Nab8438c2b1044872bc393ebe66b273f3 . - "has end node"@en . -_:N19f6b7aaa8a54dc98ba2ed783c1607ff . - _:N6f88757425a44d51b8a715a3121e2880 . -_:N7f265266d4b242b89c4a774f0d1ba817 _:N4b11446840f7470ea8d5e84b62d800f2 . - . -_:N1e3797178e6041a986e1b27fb6acf9e4 . - _:Nb4ead77f129f47c9b8d59c3e7681a17b . -_:N060f563785994bc984b13af1477770cb _:Na15756b089a741dabced2b4b692d2132 . - _:N6b52eb6d63c84ab693934a9dce2ab0cb . -_:N57ab473b761f4fdb95ea184c0c4a240c . - . - . -_:Ne9eae63d0b5a4397ab324d5dc4aac238 . -_:N6a2d93a616414dd7b488da75e9fa8f5e . - "DISO"^^ . -_:N9a239d836037481dbb59edb882921619 . - . - "has lattice point"@en . - . +_:Ncd904505f37b40ccaeeec27320fe029e . + . + . +_:N00fd6cd0010544aca01c04344aa74533 . + "Crystallographic Defect"@en . + "hasRepresentation relates the entity to another representation of entity."@en . +_:N18d278094cb8403d89834c2b467e778e . +_:N403706b59b4643498db3475afa84c4ab . + _:N403706b59b4643498db3475afa84c4ab . + "A set of symmetrically equivalent planes in the lattice."@en . "In classical Euclidean geometry, a point is a primitive notion that models an exact location in the space, and has no length, width, or thickness."@en . -_:N351157f6253341e5aa463be57d4f2d8c _:Nb04715cd11404335beefe40033731ec6 . - . - . -_:Na2dc68215428422db9df562c1c46b619 . -_:N3c1db54a03dd4ccd9334e2b347c0857d . +_:N021bbc033483460faf5f5d935b1f65db . +_:Nd66cbbdd9cd14790b29d67cd86f7bc6d _:Nfd282042e54e4780b4d8a9b2d4109530 . +_:N3692740c2eea4703b7eabd6bf7a5c991 . + "die Gleitebene"@de . + "Inverse of hasSegment"@en . +_:Nba306ef0e3a340da8b6c63ba72c4731b . + . + _:Ncd904505f37b40ccaeeec27320fe029e . + . +_:N968a51fe5d434a08a7b4196e71f1b413 . + "der Burgersvektor"@de . + . + . +_:N30c92f62739947e8a41cb92e9e674ebe . +_:N215e1587c5ba4693b12e5d94864d9128 _:Nfe3b95c7cc364ee8810569f3529eb90b . + . + . + "Lattice Point"@en . +_:N27fb2ee7c1a7449e83b357049dae3ea9 . +_:N1f69bec066ab485f82fba109a588b433 . +_:Ndd09798f6ce34e6187c08034764b9665 . + "Shape Function"@en . +_:N47dbdc4d1104478c8cea2c152622b97a . + "hasBurgersVector represents the relationship between dislocation to Burgers vector."@en . . -_:Nb691ae32791445e1914d143556f10297 . - . - . - _:Na63f532a30424a95a4300dbd44562b46 . - . -_:N069755464e20449eb0b9fb6b79ba20df _:N86febeb306b042138e67acc6842c9ea1 . - "has numerical representation"@en . - "Position Vector"@en . -_:N91e84572d29c4f97becb3df0dce22c69 . - "has Burgers vector"@en . - . -_:Nf9c2e1205f1b4ca9acd02b8852a2d254 . -_:N6b52eb6d63c84ab693934a9dce2ab0cb . - . -_:Nbac07116122d444ebe6a5d379a764e44 . -_:N6283bdc0d36f4a8697b159cbafbaeece . -_:N72ea5d58bed34768b7f403cf3f0c1ba8 _:N09adfd7ccfe1422c8da7e4009712f001 . +_:N452a730c41114da196d0d219a2ea52fd . + . + _:N4740549463254bf19a21678a90f3ee98 . +_:N76afc8b7d1304f5d99b0a2571daed34d _:N60afc15035f74d61a824400d77ea64c1 . +_:Nb4d255120bc94efc9cd3a33ad197bf5e _:N9ce3112eb34a489885e475c71f886457 . + _:N1f69bec066ab485f82fba109a588b433 . + "Field Ion Microscopy (FIM) is a microscopy technique that can be used to image the arrangement of atoms."@en . + "die Versetzunglinie"@de . + _:N1162741a59ef4698a38be258ed8c9146 . + . + . + . +_:Ne70b72e2833b4f8cbbf5b4484dc48aca . + . + "has vector origin"@en . +_:Nb87dc81d738f4b139cd9e840b1fb9b26 . +_:Ne109861a642d4cbb9513e6f7e33659cf . + "Mathematische Darstellung der Versetzung als \"Linie\". Ein Beispiel für die mathematische Darstellung einer Versetzungslinie ist eine orientierte Kurve, die durch ihre Bogenlänge parametrisiert ist."@de . +_:N3e8caa684e2b478c83e9f7446c48f47f _:N82fb92200e33496b8531b23675ba7c5e . +_:N3a572196b47e459ca51738a32f61bea1 . + "hasSlipSystem represents the relationship between a crystal structure and slip system."@en . +_:N845bac469ba74dd8bd6f66b8fca94471 . + "die Gleitrichtung"@de . + . +_:Ncd3dbc9d4cea4b469fe5303f466c3702 _:Nb2fab887928946e7b60e647f26da4327 . +_:N18d278094cb8403d89834c2b467e778e . + "hasLatticeDirection represents the relationship between a lattice or a lattice plane with lattice directions."@en . + . + . . -_:Ne726859874a54cacbf733a9faf0ae6b2 . -_:Na63f532a30424a95a4300dbd44562b46 . - "Slip Plane"@en . -_:N0c2bba45bd024fb5b828c9934ef1088b . -_:N3052a2ab892c4d739f0c4b6dc6091424 . - "Slip System"@en . - . - "hasMathematicalRepresentation relates the entity with its mathematical representation."@en . -_:Ne9eae63d0b5a4397ab324d5dc4aac238 . - _:Nf9c3d2e595a841c1a84518a0fc92188a . - . - . -_:N9976d7039dce4f38933f94dd509ba170 . -_:N7a3966b5529c4337b2089a0563d6454f . - . + "Burgers Vector"@en . + "die Formfunktion"@de . +_:N0bf41ee92227473abbc4c43135c89e6f "1"^^ . +_:N83011a51f2804c03a81e52046ebeb628 . + . + . +_:N5201186950c84c0f8df6c4e59de096f0 . + "Said Fathalla"^^ . . -_:N6b47031010794a65b1dc3ad2814e599b . -_:Nabb9730925ac4e3f9b465b75304607e2 . - "observed by"@en . - . -_:N73eddba0374d4fe3aafd211026cd2aea _:Na2640772771e4ed2bc061840427205fb . -_:N64e6f34c17f445239b65cd3eaeff7773 . - . -_:N7a3966b5529c4337b2089a0563d6454f . - . -_:N162d9ba857b94d4e86479f762b9b68f7 _:Ne54a9f4a21fa4fdbadf4333c1f02b327 . -_:Na63f532a30424a95a4300dbd44562b46 . -_:N6f04a78adea944e0ba81ffaa8e033396 . -_:Ne9a486e6046942369e0492e7e20bc4bb _:N162d9ba857b94d4e86479f762b9b68f7 . -_:N3e76cd3b4a1342cb8d12b4b48822cc08 . - . -_:N0c2eea833c19426abac07d5b00242d67 _:Nd94baa99db6c4c279a5767a276eefdf4 . -_:N6acd57a2201c4df6b292540ede75b971 . - . - . - . +_:Nfe29857919dd41b39e9f3ba6e8d1839f . +_:N3405dde62c6b42f185de934626f6d457 "1"^^ . "has node"@en . - . - . -_:N557f07a0608442cdb9ecd98d8ac00d95 . - _:N1942bbaa283549c7810714ca28ed7e04 . -_:Nb8f737636b0f42d7a1ba0dbedc700a99 . -_:N4569f70478c34d6693e1a5c9ade42dd5 . -_:N8067eee58ab0410b8a8fb7f8696c8f81 "1"^^ . -_:N6c28766f53a1436c92f801d442418f8c . - "hasSlipPlaneNormal represents the relationship between a slip plane or slip system with slip plane normal."@en . - "Dislocation Ontology"@en . - . - _:Ncba57060168040689a5fb56eba4df0e4 . -_:N2f71eba7ef6d41cf8e31f4c1339ea52c . - "The lattice plane forms an infinitely stretched plane (characterized through a plane normal) that cuts through lattice points such that, again, a regular arrangement of lattice points in the plane occurs."@en . - "Quantity" . -_:N58c11a98a6ba4cdfb8f56d12b9dd00da _:N8c4ab711ca8840618bf8b6e98ca032d6 . -_:N33dc055c814945ad844926d1a58135a6 _:Nbac07116122d444ebe6a5d379a764e44 . - . - "Dislocation"@en . -_:N6b52eb6d63c84ab693934a9dce2ab0cb . - "Slip Direction"@en . -_:N6c28766f53a1436c92f801d442418f8c . -_:N763950e6ec3b42758d20343e2c5656b5 . -_:Nd94baa99db6c4c279a5767a276eefdf4 . - "The segment is a part of a line bounded by two distinct end points and may contain points on the line between its endpoints."@en . -_:N5dfce0c22910490fbb59917bd7a6208e . - . -_:N35f079addcd640deb8c35928eeefbb57 . - . - "A crystal structure is described by the lattice geometry and atomic arrangements within the unit cell."@en . - . - . +_:Nfe29857919dd41b39e9f3ba6e8d1839f . +_:N2baa31d99ddf41f78eb0fc370e9e6c48 . +_:Nee9a19bf99b94bee987c7cd5db713381 _:Ncd3dbc9d4cea4b469fe5303f466c3702 . +_:Na636b9d2234c4461a6682cbf6c1d1e52 _:N47dbdc4d1104478c8cea2c152622b97a . + _:Nb1bbbdd328854c1d95f32026b6806b4c . +_:Nab4c4e3a52b14be597385c49471b9187 . +_:N1da0d9923bba4fc89198bd9c77070ca5 . + . + . + _:Nf691d0eb07f840a69f872560868e21bb . +_:N1da0d9923bba4fc89198bd9c77070ca5 . +_:N34721e0be5954e24b1947df490b3e246 . +_:Nd439e57eb6c040aabc30364f34b2e268 _:N731c8216d7b24df39447c89298c6cb9e . + "Crystal Structure"@en . +_:N13db590b1a8d492884cf3747ab89040a _:Nae98d026713c45aa80fba67bcd8cdcd4 . + "Ein Gleitsystem ist definiert als die Menge der Gleitebenen mit dem gleichen Einheitsnormalvektor und der gleichen Gleitrichtung."@de . +_:Nbf83c6cd6eee4b859361dbcf2bb79804 _:N34721e0be5954e24b1947df490b3e246 . +_:N10a7fae033b04f1aa6da008baf0f8104 . "Lattice Plane"@en . -_:Nd0eee09534bd433a9f001e1b730ebbc9 _:N2406fdbcf3564af0b863198a8b49b08c . - . -_:N3706cc0565324baab523c8909d89452a . +_:Nb607cd60f6be46268f33f8fdbc318b1e . + . + _:N19873cefc9544b90b4f34d3fefd9dff3 . +_:N1b301fd8c4ed4d3f92b6ad4cad48ada5 _:N81e9f63cd942486b83d7f2d8d40c32fa . +_:N3692740c2eea4703b7eabd6bf7a5c991 . + "A point of a segment."@en . +_:Nc74ee1872d1d4de9a182f46e66dc25b2 . +_:Na636b9d2234c4461a6682cbf6c1d1e52 . +_:Na74d7fc7044848ccb7dce41902fae685 . +_:N0c6a3157bf564bbdb3c0372ccc5a1c8b "1"^^ . +_:Nd81e99d97a124a4ea2a8c6605642decb . +_:Nfe3b95c7cc364ee8810569f3529eb90b _:N2810e11531b04e61960f592efa239978 . +_:Ndd09798f6ce34e6187c08034764b9665 . +_:N27fb2ee7c1a7449e83b357049dae3ea9 _:N1da0d9923bba4fc89198bd9c77070ca5 . +_:Naab1404b8e344ef794c86fba9849d8e6 _:N88b6ebc467a147a88520d328c337cf49 . + "Ahmad Zainul Ihsan"@en . + . + . + "familyDirectionMillerIndice represents a set of miller indices of lattice direction in string."@en . +_:N9a1332a504594f0095e44d1e1036cfc2 . +_:Nd67bd9fe400e4672be8abef04968b306 . +_:N72a6ac6f3e0443cf8b033a5d5c7b644c . + . +_:N452a730c41114da196d0d219a2ea52fd . + . +_:N7d072dfcc1314bf09930afdd1dd63f0f _:N6fe3a8d3eb604dc383a4eb47894a38e8 . +_:N50943b98402e430080502e11fddcc5a2 . +_:N1b29ab893b924e289d3f3786e4877ee0 . +_:Na74d7fc7044848ccb7dce41902fae685 . +_:Nb8f226fe6d1749dfbe1b8f3570b1bbe1 . + _:N1b29ab893b924e289d3f3786e4877ee0 . +_:N72a6ac6f3e0443cf8b033a5d5c7b644c . + "has slip plane"@en . + . + "A dislocation that has a line sense parallel to its Burgers vector."@en . +_:Nc306b156d450407499215e703e317d6d . +_:Nc74ee1872d1d4de9a182f46e66dc25b2 . + . + . + . + "Sub-property of hasNode that relates the segment with the end node."@en . + . +_:N1da0d9923bba4fc89198bd9c77070ca5 . + . + "die Familie der Gitterebene"@de . +_:N403706b59b4643498db3475afa84c4ab . + "hasNumericalRepresentation relates the entity with its numerical representation."@en . +_:Nd67bd9fe400e4672be8abef04968b306 . +_:Nb2fab887928946e7b60e647f26da4327 . +_:Nfdc64c52fae2486ebbe11e6f8ce2d2c9 . + . + "DISO"^^ . +_:Ne390fbf9b65748ebaafcb4f0ee7663d7 _:Ne75bea63dabd4ecd9207afa1fbef32dc . + . +_:Nc0fed22bcacf4f768c27f53bd730ef7d _:Nd81e99d97a124a4ea2a8c6605642decb . +_:N39fc8d5a45274c65abc42d76a779bb71 _:N13db590b1a8d492884cf3747ab89040a . +_:N1e97fa0ce9ba44659260a621fce7c761 . +_:N7d072dfcc1314bf09930afdd1dd63f0f _:N95b0dc96d2e441ab8af2d53e34b42e55 . + . +_:Nbec831869f0843a5b1f68c9c6dcb145e . + "A set of symmetrically equivalent directions in the lattice."@en . + . +_:N9d39715c4ff944159c093c2652152107 . +_:N9d39715c4ff944159c093c2652152107 . + "die Stufenversetzung"@de . +_:N448d0940f8c741c3a10f8c15bf4197ee _:N6d93685d1d6c4379990b0ef6ed71e5ad . +_:N85f2d8c2eaa14d0681157737915be403 _:N5201186950c84c0f8df6c4e59de096f0 . + "Vector Origin"@en . +_:Nb4ab28722aaf4cb5831405b1eb93d3a5 . +_:Nf691d0eb07f840a69f872560868e21bb . + "Vector components/vector coordinates of particular basis. It has relation to a specific basis."@en . + "has representation"@en . +_:N66c768296dba4dab9c7b4b7c4173e0ce . +_:N244b6ac7119c43edaa2e413c458f049b _:N8149e94feef446d78c5ea5e21c95c345 . . - . - . - . -_:N35f079addcd640deb8c35928eeefbb57 . - . - . -_:Ne4414066db114ad49f50040d71a0932f . - _:Ne9a486e6046942369e0492e7e20bc4bb . -_:Nc60fccdc41884608924ded5102295d1a . -_:N162d9ba857b94d4e86479f762b9b68f7 _:Nd4ba6059ea9445a48318ac4f3943128b . -_:N377f6241abe64a7b8e472b741f1d9e41 _:Nfb7e8902a5c64f60b2074f77607ae551 . -_:Nf5de547810a641f180660c662792bfc4 . -_:N4569f70478c34d6693e1a5c9ade42dd5 . -_:N8c4ab711ca8840618bf8b6e98ca032d6 . - _:N7b4f7dbd2d2c4f25846efb4845aaf7ff . -_:N88b891d337944b409ac7e9422e61471d . - "A dislocation that has a line sense parallel to its Burgers vector."@en . - . - . - . - "Ahmad Zainul Ihsan"@en . - "Basis"@en . - . - "plane miller indice"@en . -_:N763950e6ec3b42758d20343e2c5656b5 . - "has vector origin"@en . -_:Nace8e33bde9549d3a3bf9b8b72eea34e _:N5c33a485737846aa831b91591e15620f . - . -_:N060f563785994bc984b13af1477770cb . -_:Nd977d5b0ae26418f94dd6bda3d6701c9 . -_:N7af96299e85a4c7c87c51a1820a0faee . -_:N6283bdc0d36f4a8697b159cbafbaeece "1"^^ . - _:Ne0f839bc866b4f24ab0950bcc01dab65 . -_:N8f0e0f529d14435686aebbcb9b1bf538 . - "directionMillerIndice represents Miller indice of lattice direction in string."@en . -_:Nfc7dce1da9e344d7b267da8e615c0a71 . -_:Nd4ba6059ea9445a48318ac4f3943128b . -_:Na47a97765c804d91805e70596708f90c . - "has family crystal direction"@en . - . - "Point"@en . + . +_:Ne20e29c008964663931b2ef4808fdd48 . +_:N0ac108f7be2d46eeb12b7ce26075cd4c . +_:Nfcb3c23f2c534211a18b51ed0eb0f87e _:Nb5cfb9e4ade246b880be4c06727aa67a . + . +_:N3e8caa684e2b478c83e9f7446c48f47f . +_:Nee9a19bf99b94bee987c7cd5db713381 _:Nd67bd9fe400e4672be8abef04968b306 . +_:N5201186950c84c0f8df6c4e59de096f0 . + "moves on"@en . + . . - "hasFamilyCrystalPlane represents the relationship between the lattice plane and the family of crystal planes."@en . -_:N8f0e0f529d14435686aebbcb9b1bf538 . -_:N7af96299e85a4c7c87c51a1820a0faee . -_:Nab8438c2b1044872bc393ebe66b273f3 . - . - "Family of Crystal Plane"@en . -_:N7b4f7dbd2d2c4f25846efb4845aaf7ff . - _:N7f265266d4b242b89c4a774f0d1ba817 . -_:Nc86d0d331c0740329f47f7274b79fbd3 _:Nd396ef79fc0d466799f6f17650a596fd . -_:N8067eee58ab0410b8a8fb7f8696c8f81 . + "slipArea represents the slip area of discretized line in double."@en . +_:Nb607cd60f6be46268f33f8fdbc318b1e . + "Eine Versetzung, die Burgersvektor und Versetzungslinie stehen senkrecht zueinander"@de . +_:N6fe3a8d3eb604dc383a4eb47894a38e8 . + "hasNode represents the relationship between segment and node."@en . + . +_:Nc91642c067fb44eea2085a7c0f41c44d _:Nb8f226fe6d1749dfbe1b8f3570b1bbe1 . + "Die Transmissionselektronenmikroskopie (TEM) ist eine Mikroskopietechnik, bei der ein Elektronenstrahl durch eine Probe geschickt wird, um ein Bild zu erzeugen. Bei der Probe handelt es sich häufig um einen ultradünnen Schnitt von weniger als 100 nm Dicke."@de . +_:N9e72b8f01c284587adb8a2d51b4948b6 _:Nced92bad1dfb49bb947c9486c8549e7c . + "Lattice Displacement"@en . + "The direction in the slip plane along which plastic deformation takes place. The slip direction corresponds to one of the shortest lattice translation vectors."@en . +_:N76afc8b7d1304f5d99b0a2571daed34d _:N27fb2ee7c1a7449e83b357049dae3ea9 . +_:N5d0d8e6786f34c83a35dc6532251a623 . + . +_:Nd439e57eb6c040aabc30364f34b2e268 . + . + . + "The crystallographic/lattice plane along which the dislocation line traverses/moves. The slip plane is usually the plane with the highest density of atoms, i.e. most widely spaced."@en . + . +_:N1162741a59ef4698a38be258ed8c9146 . + _:N968a51fe5d434a08a7b4196e71f1b413 . + _:N2baa31d99ddf41f78eb0fc370e9e6c48 . + "der linienhafter Defekt"@de . + "Screw Dislocation"@en . + _:N80ba81d4d2b8499b862c88253ed9c000 . +_:N021bbc033483460faf5f5d935b1f65db . +_:N9d39715c4ff944159c093c2652152107 . + "Discretized Line"@en . + "The unit normal vector of slip planes."@en . + "Lattice Direction"@en . + "Die Formfunktion ist die Funktion, die die Lösung zwischen den an den Netzknoten erhaltenen diskreten Werten interpoliert. Bei der diskretisierten Versetzung bestimmt die Formfunktion die Form eines Segments und letztlich die Form der Linie. Beispiele für Formfunktionen, die zur Diskretisierung der Versetzung verwendet werden, sind kreisförmig, elliptisch, spiralförmig, linear, kubisch und quintisch."@de . + . +_:N50943b98402e430080502e11fddcc5a2 . +_:N215e1587c5ba4693b12e5d94864d9128 . + "Field Ion Microscopy"@en . + . + "die Familie der Gitterrichtung"@de . +_:N610b52cf560e48288f8f757dd1d3e67b "1"^^ . +_:N13db590b1a8d492884cf3747ab89040a _:N7e2e961bdc2f4372bb17d4b3acc779fa . + _:N9a1332a504594f0095e44d1e1036cfc2 . +_:Nba306ef0e3a340da8b6c63ba72c4731b . +_:N610b52cf560e48288f8f757dd1d3e67b . . - . -_:N878c65810eb64b1199a105dd3d07fa88 . - "has line sense"@en . -_:Nf90e8c2015f74eccb0edcd4a13473ee0 _:N70236fff26af4c8db0caabd06eb6d3c9 . -_:N2e1e5c0b965d421a9cf8a7b88c139932 . -_:N2406fdbcf3564af0b863198a8b49b08c _:N05cd3c0d17614bd2a78945cedddcfcf7 . -_:Na47a97765c804d91805e70596708f90c . - "A sense that characterizes a directed line, i.e., it has a start and an end."@en . -_:N57ab473b761f4fdb95ea184c0c4a240c . - "Ursprung"@de . -_:N6f88757425a44d51b8a715a3121e2880 _:N72631093466c4388b16db9ff104757da . -_:N4b11446840f7470ea8d5e84b62d800f2 . -_:Nbc69ab3e55f6435f9a10a4d41982e48e _:N3706cc0565324baab523c8909d89452a . - "https://github.com/Materials-Data-Science-and-Informatics/dislocation-ontology" . -_:N83093f2e9b9c439a8120afaecf530012 _:N9fae0b291d7741cda6246a0c13a70729 . - . + "Dislocation Ontology"@en . +_:Nfd282042e54e4780b4d8a9b2d4109530 _:Ne9ab082670514909a2dd2d5354582497 . + _:N305bb5b827974e1192ff9e78299cbba2 . + "A fixed point that is needed by the vector to identify other points in the space relative to its origin."@en . + "The mathematical concept to represent the periodicity of a crystal. A lattice defines a periodic arrangement of one or more atoms."@en . + _:N50943b98402e430080502e11fddcc5a2 . +_:N845bac469ba74dd8bd6f66b8fca94471 . +_:N4740549463254bf19a21678a90f3ee98 . +_:N88b6ebc467a147a88520d328c337cf49 _:Ndbe5f861ee0542849f142d509ca2bc37 . + "

A quantity is the measurement of an observable property of a particular object, event, or physical system. A quantity is always associated with the context of measurement (i.e. the thing measured, the measured value, the accuracy of measurement, etc.) whereas the underlying quantity kind is independent of any particular measurement. Thus, length is a quantity kind while the height of a rocket is a specific quantity of length; its magnitude that may be expressed in meters, feet, inches, etc. Examples of physical quantities include physical constants, such as the speed of light in a vacuum, Planck's constant, the electric permittivity of free space, and the fine structure constant.

\n\n

In other words, quantities are quantifiable aspects of the world, such as time, distance, velocity, mass, momentum, energy, and weight, and units are used to describe their measure. Many of which are related to each other by various physical laws, and as a result the units of some of the quantities can be expressed as products (or ratios) of powers of other units (e.g., momentum is mass times velocity and velocity is measured in distance divided by time). These relationships are discussed in dimensional analysis. Those that cannot be so expressed can be regarded as "fundamental" in this sense.

\n

A quantity is distinguished from a "quantity kind" in that the former carries a value and the latter is a type specifier.

"^^ . + "Eine elementare Einheit (Längenordnung der Gitterparameter) der Gittertranslation. Der grundlegende Begriff des Burgers-Vektors leitet sich aus dem Versagen der Schließung eines ursprünglich perfekten Gitters aufgrund der Existenz von Versetzungen ab. Das Ausmaß und die Richtung des Schließfehlers werden durch den Burgers-Vektor charakterisiert."@de . +_:N50943b98402e430080502e11fddcc5a2 "1"^^ . + . +_:N00fd6cd0010544aca01c04344aa74533 . "A dislocation that has a line sense perpendicular to its Burgers vector."@en . -_:Nbb7a09c4abb6498f8fb870010d2cba00 _:N43726ca1664a43c595b93d21d4943f23 . - . - "The shape function is the function that interpolates the solution between the discrete values obtained at the mesh nodes. In discretized dislocation, the shape function determines the shape of a segment and ultimately determines the shape of the line. Examples of shape function that is used to discretize the dislocation are circular, elliptic, spiral, linear, cubic, and quintic."@en . - "family direction miller indice"@en . - . -_:N2649174b8ea842c39e7112a7e4af376b . + "Dislocation"@en . . -_:Nee968cdde8914ad795fe56c5ff95a63d _:N6b47031010794a65b1dc3ad2814e599b . - . -_:N0c2eea833c19426abac07d5b00242d67 _:Nbc69ab3e55f6435f9a10a4d41982e48e . - "Transmission Electron Microscopy"@en . -_:Nf9c3d2e595a841c1a84518a0fc92188a _:N377f6241abe64a7b8e472b741f1d9e41 . -_:N763950e6ec3b42758d20343e2c5656b5 . - . - . - "Line"@en . -_:N04a78b77bf224962a173308cf318295f . - "

A quantity is the measurement of an observable property of a particular object, event, or physical system. A quantity is always associated with the context of measurement (i.e. the thing measured, the measured value, the accuracy of measurement, etc.) whereas the underlying quantity kind is independent of any particular measurement. Thus, length is a quantity kind while the height of a rocket is a specific quantity of length; its magnitude that may be expressed in meters, feet, inches, etc. Examples of physical quantities include physical constants, such as the speed of light in a vacuum, Planck's constant, the electric permittivity of free space, and the fine structure constant.

\n\n

In other words, quantities are quantifiable aspects of the world, such as time, distance, velocity, mass, momentum, energy, and weight, and units are used to describe their measure. Many of which are related to each other by various physical laws, and as a result the units of some of the quantities can be expressed as products (or ratios) of powers of other units (e.g., momentum is mass times velocity and velocity is measured in distance divided by time). These relationships are discussed in dimensional analysis. Those that cannot be so expressed can be regarded as "fundamental" in this sense.

\n

A quantity is distinguished from a "quantity kind" in that the former carries a value and the latter is a type specifier.

"^^ . - "has position vector"@en . -_:N72631093466c4388b16db9ff104757da _:Na983ec5cb7394273a6eac529645feedd . - "Lattice Direction"@en . -_:Nf5de547810a641f180660c662792bfc4 "1"^^ . - . - . -_:Ne9a486e6046942369e0492e7e20bc4bb . - "The direction in the slip plane along which plastic deformation takes place. The slip direction corresponds to one of the shortest lattice translation vectors."@en . - "familyDirectionMillerIndice represents a set of miller indices of lattice direction in string."@en . -_:N495166f2a81d4926b0f825ff1b3072a8 . - . - "hasVectorOrigin represents the relationship between lattice plane and origin."@en . -_:N1e3672ef16284178b3834f5d5f09911b _:Nb2a1a5ef24544b11ae11dacf20507afc . - . - . - _:N557f07a0608442cdb9ecd98d8ac00d95 . -_:N04a78b77bf224962a173308cf318295f . - . - . + . +_:Nd81e99d97a124a4ea2a8c6605642decb _:N845bac469ba74dd8bd6f66b8fca94471 . +_:N758670c5b6284dc58b1054aa082b180f . + . + . +_:N3107b8f51b06414a9ebc3fec1be07e0c . + "Euclidean vector that represents the position of a point P in space in relation to an arbitrary reference origin O."@en . + . +_:Ndbe5f861ee0542849f142d509ca2bc37 . + "Basis"@en . +_:N0ac108f7be2d46eeb12b7ce26075cd4c "1"^^ . + _:N5d0d8e6786f34c83a35dc6532251a623 . + . +_:N3107b8f51b06414a9ebc3fec1be07e0c . +_:Ne20e29c008964663931b2ef4808fdd48 . + "direction miller indice"@en . +_:N2810e11531b04e61960f592efa239978 _:N9d39715c4ff944159c093c2652152107 . +_:N305bb5b827974e1192ff9e78299cbba2 . + "Quantity value" . "Edge Dislocation"@en . -_:N6c28766f53a1436c92f801d442418f8c "1"^^ . -_:N33dc055c814945ad844926d1a58135a6 _:N4569f70478c34d6693e1a5c9ade42dd5 . -_:Ncba57060168040689a5fb56eba4df0e4 . -_:N7f265266d4b242b89c4a774f0d1ba817 . - . + . + _:N3de65d4c362740c68f7136c466a053f7 . +_:N6d6dc8dae7da4700936f1378e252d04c . + _:N32e6587a1f6a41b89fac7a7c01eddc66 . . - "Crystallographic Defect"@en . - . - . -_:N032a2381483b43ad9215047883b8dddd _:Nfc7dce1da9e344d7b267da8e615c0a71 . -_:Nb4ead77f129f47c9b8d59c3e7681a17b . -_:N91cfed63eac94f2e81c2d077c5e1d7bf . -_:N58c11a98a6ba4cdfb8f56d12b9dd00da . -_:N5c956b250783410c9aabf09b45660e55 . -_:Na15756b089a741dabced2b4b692d2132 _:N69ec563105a94e5b996261ce717952d5 . - "Discretized Line"@en . -_:Nbda82689e6af4a9c9ee2837de048534d . - "movesOn represents the relationship between dislocation and slip plane."@en . - . -_:N6acd57a2201c4df6b292540ede75b971 . -_:Na983ec5cb7394273a6eac529645feedd . - . -_:Na524ee5485bf4b3e94850c29acd2dc22 . - . - . - "hasFamilyCrystalDirection represents the relationship between lattice direction and family of crystal direction."@en . - "slipArea"@en . -_:N8f0e0f529d14435686aebbcb9b1bf538 . -_:Nf455845696c548cc809fcf0867ed22f8 . -_:Ne1ab3e63c91040d398f38d8d0bbc7742 _:Nb691ae32791445e1914d143556f10297 . -_:N50aad53684ce4467b9c0bc10d7bd170d . -_:N0c2bba45bd024fb5b828c9934ef1088b "1"^^ . - "Field Ion Microscopy (FIM) is a microscopy technique that can be used to image the arrangement of atoms."@en . - . - "hasLatticePlane represents the relationship between a lattice and lattice planes."@en . -_:Nd94baa99db6c4c279a5767a276eefdf4 . - "resultsIn represents the relationship between dislocation and lattice displacement."@en . - "Crystal Structure"@en . -_:N5c33a485737846aa831b91591e15620f _:Nbb85ba5f875e4cda8750fddb10e469fc . -_:N069755464e20449eb0b9fb6b79ba20df _:N9a239d836037481dbb59edb882921619 . +_:N60afc15035f74d61a824400d77ea64c1 . +_:N38a9220cf42b4b9faf5ba09c20ef998e . +_:N66c768296dba4dab9c7b4b7c4173e0ce . + . + "Quantity" . +_:N9dd1ba26faa741d2800ab666e3e50641 _:Nc74ee1872d1d4de9a182f46e66dc25b2 . + . + _:Nbf5c7f6f643f4117823f8956bc729c33 . . -_:N5c33a485737846aa831b91591e15620f . - . - _:N2e1e5c0b965d421a9cf8a7b88c139932 . - . - . - . - . -_:N3706cc0565324baab523c8909d89452a . - "Inverse of hasSegment"@en . - . - . - _:Na47a97765c804d91805e70596708f90c . - "Coordinate Vector"@en . -_:N8bca22e9d8164c9d9ccb1c7e30549a6c _:N6f04a78adea944e0ba81ffaa8e033396 . -_:Nae73e3f6cc70438ebe306d4e4c8dc2f4 . - _:N91e84572d29c4f97becb3df0dce22c69 . - . -_:N88b891d337944b409ac7e9422e61471d . - . -_:Nb8f737636b0f42d7a1ba0dbedc700a99 . -_:Nd4ba6059ea9445a48318ac4f3943128b . - "Screw Dislocation"@en . -_:N3c1db54a03dd4ccd9334e2b347c0857d . -_:N6b47031010794a65b1dc3ad2814e599b . +_:Nc4b6c133576a4d2899b019a7055d3cb4 . + . +_:N6d93685d1d6c4379990b0ef6ed71e5ad . +_:Nb1bbbdd328854c1d95f32026b6806b4c . "Set of vector(in 2-D two vectors and in 3-D three vectors) that linearly independent."@en . -_:Nd977d5b0ae26418f94dd6bda3d6701c9 "1"^^ . - "Family of Crystal Direction"@en . -_:Ne4414066db114ad49f50040d71a0932f . - "hasLineSense represents the relationship between dislocation and line sense."@en . - "hasNumericalRepresentation relates the entity with its numerical representation."@en . -_:N05cd3c0d17614bd2a78945cedddcfcf7 . -_:Ne726859874a54cacbf733a9faf0ae6b2 . - . - _:Nc86d0d331c0740329f47f7274b79fbd3 . - "has slip system"@en . -_:N3052a2ab892c4d739f0c4b6dc6091424 . - "Dislocation Ontology"@en . -_:N7b4f7dbd2d2c4f25846efb4845aaf7ff . - "Unit" . + . + "Die Gitterrichtung"@de . + . + "Slip Direction"@en . +_:N7231bfabf8d743268f50b07e5cc94aa8 _:N244b6ac7119c43edaa2e413c458f049b . +_:N26035516785b48dcbfb5f44642a04d7f . +_:N30c92f62739947e8a41cb92e9e674ebe . + "The displacement of atoms from their perfect lattice sites due to the existence of defects, e.g., point defect, line defect, and grain boundary."@en . +_:N0bf41ee92227473abbc4c43135c89e6f . + . + "resultsIn represents the relationship between dislocation and lattice displacement."@en . + . +_:N403706b59b4643498db3475afa84c4ab . +_:N6869d080923148029033062375fdfc09 _:N47c9c057da7943c7a4cbfa7627effa38 . +_:N95b0dc96d2e441ab8af2d53e34b42e55 . +_:N5d0d8e6786f34c83a35dc6532251a623 . + "Mathematical representation of dislocation as 'Line'. An instance of mathematical representation of a dislocation line is an oriented curve parameterized by its arc length."@en . + _:N43f2d0f5dfb54739b42f85a70955c5d3 . +_:N1e250b3e777345f3aaff82c071777be8 _:Nd66cbbdd9cd14790b29d67cd86f7bc6d . +_:N3405dde62c6b42f185de934626f6d457 . +_:Naab1404b8e344ef794c86fba9849d8e6 _:N31df1db37abf42f69eb213ea424bf17a . +_:Nfe29857919dd41b39e9f3ba6e8d1839f . +_:Nb5cfb9e4ade246b880be4c06727aa67a _:N00fd6cd0010544aca01c04344aa74533 . +_:N8fca7218ddaf4af2aca1d140da17086c _:Ne390fbf9b65748ebaafcb4f0ee7663d7 . + . +_:Nf691d0eb07f840a69f872560868e21bb . + _:Nd00ee062c9f9405eb4333efa3724ca4a . +_:N4f4f6b2a73a04e2eb4c4b462455477e2 . +_:Nbf5c7f6f643f4117823f8956bc729c33 _:Naab1404b8e344ef794c86fba9849d8e6 . +_:Nc4b6c133576a4d2899b019a7055d3cb4 . +_:N28b5e6af37594f44821debe3ac83b0a1 . + "hasSlipDirection represents the relationship between the slip plane or slip system with the slip direction."@en . +_:Nae98d026713c45aa80fba67bcd8cdcd4 . +_:N610b52cf560e48288f8f757dd1d3e67b . + "has start node"@en . +_:Nfdc64c52fae2486ebbe11e6f8ce2d2c9 . + . + "An elementary unit (length order of lattice parameter) of lattice translation. The basic notion of the Burgers vector comes from the closure failure of an initially perfect lattice due to the existence of dislocation. The magnitude and direction of closure failure are characterized by the Burgers vector."@en . +_:N82fb92200e33496b8531b23675ba7c5e . +_:Nb1bbbdd328854c1d95f32026b6806b4c . + . + "A basis defines a spatial unit used to express fractional coordinates."@en . + "has family crystal direction"@en . +_:N4740549463254bf19a21678a90f3ee98 . + . + "Das mathematische Konzept zur Darstellung der Periodizität eines Kristalls. Ein Gitter definiert eine periodische Anordnung von einem oder mehreren Atomen."@de . + . +_:N3107b8f51b06414a9ebc3fec1be07e0c . +_:N34721e0be5954e24b1947df490b3e246 . +_:Nb87dc81d738f4b139cd9e840b1fb9b26 . +_:Nc4b6c133576a4d2899b019a7055d3cb4 . +_:N9ce3112eb34a489885e475c71f886457 _:N6869d080923148029033062375fdfc09 . + . + _:Nc91642c067fb44eea2085a7c0f41c44d . + _:Nbcea203d899c4aa287bd928b0c2bf705 . + . +_:Nfdc64c52fae2486ebbe11e6f8ce2d2c9 . + . + "die Schraubenversetzung"@de . + "(Euclidean) vector used to represent quantities that both magnitude and direction."@en . +_:N91a6ab1bdab441559b7bc5fffb80a8f5 _:Na636b9d2234c4461a6682cbf6c1d1e52 . + _:N3a572196b47e459ca51738a32f61bea1 . +_:N80ba81d4d2b8499b862c88253ed9c000 _:N1e97fa0ce9ba44659260a621fce7c761 . +_:N452a730c41114da196d0d219a2ea52fd . +_:Ne31959bc25d943038d1613fc01740ee8 . +_:Nb8f226fe6d1749dfbe1b8f3570b1bbe1 _:N12fa65a3dcf3431293adc25bedd040f5 . + . + . + "A Quantity Kind is any observable property that can be measured and quantified numerically. Familiar examples include physical properties such as length, mass, time, force, energy, power, electric charge, etc. Less familiar examples include currency, interest rate, price to earning ratio, and information capacity."^^ . +_:N244b6ac7119c43edaa2e413c458f049b _:N38a9220cf42b4b9faf5ba09c20ef998e . . - . -_:Na2dc68215428422db9df562c1c46b619 . -_:N0081eb8441a44e758d7b1f3992c440aa . -_:N09adfd7ccfe1422c8da7e4009712f001 _:N763950e6ec3b42758d20343e2c5656b5 . - _:Nd0eee09534bd433a9f001e1b730ebbc9 . -_:N7bda779e7dda4c1eb04293f66347b776 . - . -_:N9143f42660c0440398b5e83177210076 . -_:N0081eb8441a44e758d7b1f3992c440aa . -_:Nb17c8c9bad9a49d49997237c44ce08c2 . - "Line Sense"@en . -_:N731da5f63d884bbc8054a7a7882c7a21 . +_:Nced92bad1dfb49bb947c9486c8549e7c . + _:N452a730c41114da196d0d219a2ea52fd . + "observed by"@en . +_:N83011a51f2804c03a81e52046ebeb628 _:N448d0940f8c741c3a10f8c15bf4197ee . + "Line"@en . +_:N452a730c41114da196d0d219a2ea52fd "1"^^ . + "Sub-property of hasNode that relates the segment with the start node."@en . + "der Ursprung"@de . + "Eine Versetzung, die Burgersvektor und Versetzungslinie liegen parallel."@de . + "Family of Crystal Plane"@en . +_:N3692740c2eea4703b7eabd6bf7a5c991 . +_:N448d0940f8c741c3a10f8c15bf4197ee _:Nfdc64c52fae2486ebbe11e6f8ce2d2c9 . + . +_:Nb25256376255457db66137318bd0a3ec _:N021bbc033483460faf5f5d935b1f65db . + . +_:N2e0524ca4b1e4928b3255cd34a47e75f . + "has numerical representation"@en . + . +_:N1e97fa0ce9ba44659260a621fce7c761 _:N758670c5b6284dc58b1054aa082b180f . + . +_:N0c6a3157bf564bbdb3c0372ccc5a1c8b . + "der Gitterpunkt"@de . + . +_:N80ba81d4d2b8499b862c88253ed9c000 . +_:N18d278094cb8403d89834c2b467e778e . + _:Nb4582c00bc004d5cb6cdf4843a8c18b5 . +_:N19873cefc9544b90b4f34d3fefd9dff3 . + "hasMathematicalRepresentation relates the entity with its mathematical representation."@en . + "die Gitterebene"@de . + . +_:Nc91642c067fb44eea2085a7c0f41c44d . + "hasLineSense represents the relationship between dislocation and line sense."@en . + "die Diskretisierte Linie"@de . + . + "Steht für Kristallformen, d. h. die Menge aller symmetrisch äquivalenten Flächen."@de . "hasSegment represents the relationship between discretized line and segment."@en . - . +_:N0c6a3157bf564bbdb3c0372ccc5a1c8b . + "A unit of measure, or unit, is a particular quantity value that has been chosen as a scale for measuring other quantities the same kind (more generally of equivalent dimension). For example, the meter is a quantity of length that has been rigorously defined and standardized by the BIPM (International Board of Weights and Measures). Any measurement of the length can be expressed as a number multiplied by the unit meter. More formally, the value of a physical quantity Q with respect to a unit (U) is expressed as the scalar multiple of a real number (n) and U, as \\(Q = nU\\)."^^ . + "has lattice point"@en . +_:Nd00ee062c9f9405eb4333efa3724ca4a . +_:N38a9220cf42b4b9faf5ba09c20ef998e . + . +_:N731c8216d7b24df39447c89298c6cb9e _:Nb25256376255457db66137318bd0a3ec . +_:Nb4582c00bc004d5cb6cdf4843a8c18b5 . + . +_:N0bf41ee92227473abbc4c43135c89e6f . + "A slip system is defined as the set of slip planes with the same unit normal vector and the same slip direction."@en . + . "hasSlipPlane represents the relationship between crystal structure and slip plane."@en . - _:N878c65810eb64b1199a105dd3d07fa88 . - . -_:N1e3797178e6041a986e1b27fb6acf9e4 . - . - . -_:N9a239d836037481dbb59edb882921619 . - . - "21.03.2022"@en . - . -_:N91cfed63eac94f2e81c2d077c5e1d7bf . -_:Nb17c8c9bad9a49d49997237c44ce08c2 . - _:N7c3fbd35e0da49a2affaa6f90712d243 . - . - . -_:N054c4c3e25cf4ec2adb83ea0a64031d5 _:Ne726859874a54cacbf733a9faf0ae6b2 . - "A Quantity Value expresses the magnitude and kind of a quantity and is given by the product of a numerical value n and a unit of measure U. The number multiplying the unit is referred to as the numerical value of the quantity expressed in that unit. Refer to NIST SP 811 section 7 for more on quantity values."^^ . + "Das Segment ist ein Teil einer Linie, der von zwei bestimmten Endpunkten begrenzt wird und Punkte auf der Linie zwischen den Endpunkten enthalten kann."@de . . -_:N91e84572d29c4f97becb3df0dce22c69 "1"^^ . -_:N8c4ab711ca8840618bf8b6e98ca032d6 . -_:Nd5d1cf5360844a41a7d38d2c3ed234e2 . -_:N1b66d0b2701747c6a20c826b7d6a3712 . -_:Nd2d20a6e05644c6db1fcbeca7a960d38 . - . -_:Nd5d1cf5360844a41a7d38d2c3ed234e2 . - "Versetzung"@de . -_:N09adfd7ccfe1422c8da7e4009712f001 . - _:N5c956b250783410c9aabf09b45660e55 . -_:Nbc69ab3e55f6435f9a10a4d41982e48e . -_:Na524ee5485bf4b3e94850c29acd2dc22 _:N054c4c3e25cf4ec2adb83ea0a64031d5 . -_:N43726ca1664a43c595b93d21d4943f23 . -_:Na2640772771e4ed2bc061840427205fb _:Nd40df2116b94438fbea33cea71686caf . -_:Nd79539eebed24fcc9edde669d4dc0d3b _:N19f6b7aaa8a54dc98ba2ed783c1607ff . -_:Nf087e059f88147e68c414e60c7417f1d _:Nb8f737636b0f42d7a1ba0dbedc700a99 . - . -_:N7bda779e7dda4c1eb04293f66347b776 . -_:Nb4ead77f129f47c9b8d59c3e7681a17b "1"^^ . -_:N351157f6253341e5aa463be57d4f2d8c . - . -_:N9fae0b291d7741cda6246a0c13a70729 . - "A slip system is defined as the set of slip planes with the same unit normal vector and the same slip direction."@en . - "A set of symmetrically equivalent planes in the lattice."@en . - "Stefan Sandfeld"^^ . -_:Nf5de547810a641f180660c662792bfc4 . - . - . -_:Nf455845696c548cc809fcf0867ed22f8 . - _:Nb8d11b5b20f54355a5215e14e168235f . -_:Nbac07116122d444ebe6a5d379a764e44 _:Nd5d1cf5360844a41a7d38d2c3ed234e2 . - "has shape function"@en . - . - "has slip direction"@en . - . -_:N5dfce0c22910490fbb59917bd7a6208e . - "has lattice plane"@en . -_:Nabb9730925ac4e3f9b465b75304607e2 . -_:N04a78b77bf224962a173308cf318295f . - "Said Fathalla"^^ . - . - . -_:Nc0f19a456b57400880369f2a4a0d5465 . - _:Ne1ab3e63c91040d398f38d8d0bbc7742 . - "Node"@en . -_:Nf90e8c2015f74eccb0edcd4a13473ee0 . - "Vector components/vector coordinates of particular basis. It has relation to a specific basis."@en . +_:N0ac108f7be2d46eeb12b7ce26075cd4c . + . +_:Ne31959bc25d943038d1613fc01740ee8 "1"^^ . + . +_:Ncd3dbc9d4cea4b469fe5303f466c3702 . +_:Nbf5c7f6f643f4117823f8956bc729c33 . + . + . + "die Versetzung"@de . + "Family of Crystal Direction"@en . +_:Ne75bea63dabd4ecd9207afa1fbef32dc . + _:N28b5e6af37594f44821debe3ac83b0a1 . +_:N19873cefc9544b90b4f34d3fefd9dff3 . + "Die Verschiebung von Atomen von ihren perfekten Gitterpunkt aufgrund des Fehlens von Defekten, z. B. Punktuelle Defekte, Linearedefekte und Korngrenzen."@de . + "Die numerische Darstellung der Versetzungslinie, die in die Anzahl der Segmente diskretisiert ist."@de . + "slipArea"@en . +_:N845bac469ba74dd8bd6f66b8fca94471 . + . +_:N4740549463254bf19a21678a90f3ee98 "1"^^ . +_:N30c92f62739947e8a41cb92e9e674ebe "1"^^ . + . +_:N968a51fe5d434a08a7b4196e71f1b413 _:N9dd1ba26faa741d2800ab666e3e50641 . +_:N60afc15035f74d61a824400d77ea64c1 . . -_:N57ab473b761f4fdb95ea184c0c4a240c . - . -_:N4b11446840f7470ea8d5e84b62d800f2 _:N1b66d0b2701747c6a20c826b7d6a3712 . -_:N6b47031010794a65b1dc3ad2814e599b . -_:N7af96299e85a4c7c87c51a1820a0faee . -_:N6b52eb6d63c84ab693934a9dce2ab0cb . - "The mathematical concept to represent the periodicity of a crystal. A lattice defines a periodic arrangement of one or more atoms."@en . -_:Nb8f737636b0f42d7a1ba0dbedc700a99 "1"^^ . - . - "hasRepresentation relates the entity to another representation of entity."@en . - . -_:Nc06c7b19a5094bb198563538cda26320 . -_:Nf9c2e1205f1b4ca9acd02b8852a2d254 . -_:Na2dc68215428422db9df562c1c46b619 . - _:N8f0e0f529d14435686aebbcb9b1bf538 . - . -_:N731da5f63d884bbc8054a7a7882c7a21 . - "hasNode represents the relationship between segment and node."@en . -_:N032a2381483b43ad9215047883b8dddd _:N4ddfc2e93a734acfa5b51675055b43c5 . -_:N0fb09cb2cec64aa9936fa2966182dc71 . -_:N557f07a0608442cdb9ecd98d8ac00d95 . - _:Nbb7a09c4abb6498f8fb870010d2cba00 . -_:Nd40df2116b94438fbea33cea71686caf . - . - _:Na2dc68215428422db9df562c1c46b619 . -_:N6f04a78adea944e0ba81ffaa8e033396 . - "Mathematical representation of dislocation as 'Line'. An instance of mathematical representation of a dislocation line is an oriented curve parameterized by its arc length."@en . +_:N31df1db37abf42f69eb213ea424bf17a . + "has lattice plane"@en . + . +_:N7231bfabf8d743268f50b07e5cc94aa8 . +_:Nb4582c00bc004d5cb6cdf4843a8c18b5 _:Nc0fed22bcacf4f768c27f53bd730ef7d . +_:N34721e0be5954e24b1947df490b3e246 . +_:Nbec831869f0843a5b1f68c9c6dcb145e . +_:Ndbe5f861ee0542849f142d509ca2bc37 . + "Dislocation Ontology"@en . + "A sense that characterizes a directed line, i.e., it has a start and an end."@en . + "Lattice"@en . +_:Naadccbbf9eb2432d838e72237571f312 _:Ndd09798f6ce34e6187c08034764b9665 . + . +_:N758670c5b6284dc58b1054aa082b180f . + "Vector"@en . +_:Nb4ab28722aaf4cb5831405b1eb93d3a5 _:Nba306ef0e3a340da8b6c63ba72c4731b . +_:Na2e8bfa53c214708bb6870f1d7ca4055 . + . +_:Ndd09798f6ce34e6187c08034764b9665 . +_:Nc97887ba451e4537895c9962c29d860d . + . +_:N81e9f63cd942486b83d7f2d8d40c32fa . + . +_:Nced92bad1dfb49bb947c9486c8549e7c . + "has Burgers vector"@en . +_:N85f2d8c2eaa14d0681157737915be403 . + "Segment"@en . + "Linear or one-dimensional defect around which some of the atoms are misaligned. In the mesoscale, a dislocation is a line object that is a boundary separating the regions on the slip plane which have undergone slip from those that have not."@en . +_:N4740549463254bf19a21678a90f3ee98 . + _:N0bf41ee92227473abbc4c43135c89e6f . "hasPositionVector represents the relationship between entity and position vector."@en . -_:Nab8438c2b1044872bc393ebe66b273f3 . -_:Nf455845696c548cc809fcf0867ed22f8 . - . + . + . +_:Ndd560ed043c54f4d940c3a87fc405dff . + . + . +_:N9e72b8f01c284587adb8a2d51b4948b6 . +_:N31df1db37abf42f69eb213ea424bf17a . +_:Ne9ab082670514909a2dd2d5354582497 "1"^^ . +_:Ne75bea63dabd4ecd9207afa1fbef32dc . + "The numerical representation of the dislocation line that is discretized into the number of segments."@en . + "has position vector"@en . + "Die Feldionenmikroskopie (FIM) ist eine Mikroskopietechnik, mit der sich die Anordnung von Atomen abbilden lässt."@de . + _:N1e250b3e777345f3aaff82c071777be8 . +_:N126adaa15a114897a068c0f7a434884c . + . + "Ein linearer oder eindimensionaler Defekt, um den herum einige der Atome falsch ausgerichtet sind. Im Mesoscale ist eine Versetzung ein linienförmiges Objekt, das eine Grenze darstellt, die die Regionen auf der Gleitebene, in denen ein Gleiten stattgefunden hat, von denen trennt, in denen dies nicht der Fall war."@de . + . + . + "hasSlipPlaneNormal represents the relationship between a slip plane or slip system with slip plane normal."@en . + "Der Einheitsnormalvektor der Gleitebenen."@de . + . + _:N26035516785b48dcbfb5f44642a04d7f . +_:Na74d7fc7044848ccb7dce41902fae685 . +_:Nbec831869f0843a5b1f68c9c6dcb145e . +_:N2baa31d99ddf41f78eb0fc370e9e6c48 _:Nb4ab28722aaf4cb5831405b1eb93d3a5 . +_:N6d6dc8dae7da4700936f1378e252d04c _:N7d072dfcc1314bf09930afdd1dd63f0f . +_:Naf0c7c57aa354cf39240a01ef97df8a9 _:Ne109861a642d4cbb9513e6f7e33659cf . +_:N47dbdc4d1104478c8cea2c152622b97a . + . +_:N959b13206cb942b4b9cfb4bf619cfb8b . +_:N28b5e6af37594f44821debe3ac83b0a1 _:N76afc8b7d1304f5d99b0a2571daed34d . +_:N731c8216d7b24df39447c89298c6cb9e _:Nfe29857919dd41b39e9f3ba6e8d1839f . +_:Ne20e29c008964663931b2ef4808fdd48 . + _:Nc306b156d450407499215e703e317d6d . + . + . +_:Ncd75fc327a34401d81b0424dd70020e2 "1"^^ . +_:Nfcb3c23f2c534211a18b51ed0eb0f87e _:Na2e8bfa53c214708bb6870f1d7ca4055 . + _:Nb607cd60f6be46268f33f8fdbc318b1e . +_:Ncd904505f37b40ccaeeec27320fe029e _:N9e72b8f01c284587adb8a2d51b4948b6 . + _:Nd439e57eb6c040aabc30364f34b2e268 . +_:N82fb92200e33496b8531b23675ba7c5e . +_:N12fa65a3dcf3431293adc25bedd040f5 . +_:Nc97887ba451e4537895c9962c29d860d . +_:Nd67bd9fe400e4672be8abef04968b306 . +_:Nb2fab887928946e7b60e647f26da4327 . + _:N0ac108f7be2d46eeb12b7ce26075cd4c . + "has slip direction"@en . + _:Ncd75fc327a34401d81b0424dd70020e2 . +_:Ne9ab082670514909a2dd2d5354582497 . + . +_:N81e9f63cd942486b83d7f2d8d40c32fa . +_:Nae98d026713c45aa80fba67bcd8cdcd4 . + . +_:N18d278094cb8403d89834c2b467e778e "1"^^ . +_:Naadccbbf9eb2432d838e72237571f312 _:Nbf83c6cd6eee4b859361dbcf2bb79804 . +_:Ne70b72e2833b4f8cbbf5b4484dc48aca . +_:N6869d080923148029033062375fdfc09 . +_:Nae98d026713c45aa80fba67bcd8cdcd4 . +_:Nb90894e1061d4739ba76682b974e1066 . +_:Nb2fab887928946e7b60e647f26da4327 . +_:N1b29ab893b924e289d3f3786e4877ee0 . +_:N0ac108f7be2d46eeb12b7ce26075cd4c . +_:N95b0dc96d2e441ab8af2d53e34b42e55 . + "Coordinate Vector"@en . + "Die Vektorrichtung innerhalb des Gitters, die zwei Gitterpunkte verbindet."@de . +_:N47dbdc4d1104478c8cea2c152622b97a . + "Slip Plane"@en . + "hasFamilyCrystalPlane represents the relationship between the lattice plane and the family of crystal planes."@en . + . diff --git a/DISO/dislocation-ontology.rdf b/DISO/dislocation-ontology.rdf index 783528f..c645902 100644 --- a/DISO/dislocation-ontology.rdf +++ b/DISO/dislocation-ontology.rdf @@ -1,25 +1,81 @@ - - - - 1 - + + - + + + + + - - - hasShapeFunction represents the relationship between discretized line and shape function. - has shape function + + + + Die Verschiebung von Atomen von ihren perfekten Gitterpunkt aufgrund des Fehlens von Defekten, z. B. Punktuelle Defekte, Linearedefekte und Korngrenzen. + The displacement of atoms from their perfect lattice sites due to the existence of defects, e.g., point defect, line defect, and grain boundary. + Lattice Displacement + die Verschiebung + + + + + + hasLineSense represents the relationship between dislocation and line sense. + has line sense + + + + + + A point of a segment. + Ein Punkt eines Segments. + Node + der Knoten + + + + + A fixed point that is needed by the vector to identify other points in the space relative to its origin. + Ein Fixpunkt, der vom Vektor benötigt wird, um andere Punkte im Raum relativ zu seinem Ursprung zu identifizieren. + Vector Origin + der Ursprung + + + + + A <i>Quantity Value</i> expresses the magnitude and kind of a quantity and is given by the product of a numerical value <code>n</code> and a unit of measure <code>U</code>. The number multiplying the unit is referred to as the numerical value of the quantity expressed in that unit. Refer to <a href="http://physics.nist.gov/Pubs/SP811/sec07.html">NIST SP 811 section 7</a> for more on quantity values. + + + Quantity value + + + + + + + + + + + + + + + + Ein linearer oder eindimensionaler Defekt, um den herum einige der Atome falsch ausgerichtet sind. Im Mesoscale ist eine Versetzung ein linienförmiges Objekt, das eine Grenze darstellt, die die Regionen auf der Gleitebene, in denen ein Gleiten stattgefunden hat, von denen trennt, in denen dies nicht der Fall war. + Linear or one-dimensional defect around which some of the atoms are misaligned. In the mesoscale, a dislocation is a line object that is a boundary separating the regions on the slip plane which have undergone slip from those that have not. + The presence of dislocation introduces local disturbance of the atomic-level geometry. + Dislocation + die Versetzung @@ -28,71 +84,75 @@ familyPlaneMillerIndice represents a set of Miller indice of lattice plane in string. family plane miller indice - - - - - hasSlipSystem represents the relationship between a crystal structure and slip system. - has slip system - - - - - + - - - + + + + + + Die kristallografische/Gitterebene, entlang derer die Versetzungslinie verläuft/bewegt wird. Die Gleitebene ist in der Regel die Ebene mit der höchsten Dichte an Atomen, d. h. mit dem größten Abstand. + The crystallographic/lattice plane along which the dislocation line traverses/moves. The slip plane is usually the plane with the highest density of atoms, i.e. most widely spaced. + Slip Plane + die Gleitebene - - - - 1 - + + + - - - + + + + In classical Euclidean geometry, a point is a primitive notion that models an exact location in the space, and has no length, width, or thickness. + Point - + - - - hasNode represents the relationship between segment and node. - has node + + + hasVectorOrigin represents the relationship between lattice plane and origin. + has vector origin - - - - 1 - + + + + + + + + Die Gitterebene bildet eine unendlich gestreckte Ebene (gekennzeichnet durch eine Ebenennormale), die die Gitterpunkte so schneidet, dass wiederum eine regelmäßige Anordnung der Gitterpunkte in der Ebene entsteht. + The lattice plane forms an infinitely stretched plane (characterized through a plane normal) that cuts through lattice points such that, again, a regular arrangement of lattice points in the plane occurs. + Lattice Plane + die Gitterebene - + - - - - The crystallographic/lattice plane along which the dislocation line traverses/moves. The slip plane is usually the plane with the highest density of atoms, i.e. most widely spaced. - Slip Plane + A unit of measure, or unit, is a particular quantity value that has been chosen as a scale for measuring other quantities the same kind (more generally of equivalent dimension). For example, the meter is a quantity of length that has been rigorously defined and standardized by the BIPM (International Board of Weights and Measures). Any measurement of the length can be expressed as a number multiplied by the unit meter. More formally, the value of a physical quantity Q with respect to a unit (U) is expressed as the scalar multiple of a real number (n) and U, as \(Q = nU\). + + + Unit - - - + + + + 1 + - - + + - - - - - - - + + + + + A set of symmetrically equivalent directions in the lattice. + die Menge aller symmetrisch äquivalenten Richtungen. + Family of Crystal Direction + die Familie der Gitterrichtung @@ -101,291 +161,279 @@ hasFamilyCrystalPlane represents the relationship between the lattice plane and the family of crystal planes. has family crystal plane - - - - - + - + 1 - + - - - - - resultsIn represents the relationship between dislocation and lattice displacement. - results in + + + + - + - - - A point of a segment. - Node - - - - + + + + Vector components/vector coordinates of particular basis. It has relation to a specific basis. + Vector Component of Basis - - - - - - Sub-property of hasNode that relates the segment with the end node. - has end node + + + + - + - - - <p class="lm-para">A quantity is the measurement of an observable property of a particular object, event, or physical system. A quantity is always associated with the context of measurement (i.e. the thing measured, the measured value, the accuracy of measurement, etc.) whereas the underlying quantity kind is independent of any particular measurement. Thus, length is a quantity kind while the height of a rocket is a specific quantity of length; its magnitude that may be expressed in meters, feet, inches, etc. Examples of physical quantities include physical constants, such as the speed of light in a vacuum, Planck's constant, the electric permittivity of free space, and the fine structure constant. </p> - -<p class="lm-para">In other words, quantities are quantifiable aspects of the world, such as time, distance, velocity, mass, momentum, energy, and weight, and units are used to describe their measure. Many of which are related to each other by various physical laws, and as a result the units of some of the quantities can be expressed as products (or ratios) of powers of other units (e.g., momentum is mass times velocity and velocity is measured in distance divided by time). These relationships are discussed in dimensional analysis. Those that cannot be so expressed can be regarded as &quot;fundamental&quot; in this sense.</p> -<p class="lm-para">A quantity is distinguished from a &quot;quantity kind&quot; in that the former carries a value and the latter is a type specifier.</p> + A <b>Quantity Kind</b> is any observable property that can be measured and quantified numerically. Familiar examples include physical properties such as length, mass, time, force, energy, power, electric charge, etc. Less familiar examples include currency, interest rate, price to earning ratio, and information capacity. - Quantity + Quantity Kind - + - - A <i>Quantity Value</i> expresses the magnitude and kind of a quantity and is given by the product of a numerical value <code>n</code> and a unit of measure <code>U</code>. The number multiplying the unit is referred to as the numerical value of the quantity expressed in that unit. Refer to <a href="http://physics.nist.gov/Pubs/SP811/sec07.html">NIST SP 811 section 7</a> for more on quantity values. - - - Quantity value - - - - - - - - - - - - hasSlipPlane represents the relationship between crystal structure and slip plane. - has slip plane - - - - - + Die Transmissionselektronenmikroskopie (TEM) ist eine Mikroskopietechnik, bei der ein Elektronenstrahl durch eine Probe geschickt wird, um ein Bild zu erzeugen. Bei der Probe handelt es sich häufig um einen ultradünnen Schnitt von weniger als 100 nm Dicke. + Transmission electron microscopy (TEM) is a microscopy technique in which a beam of electrons is transmitted through a specimen to form an image. The specimen is often an ultrathin section less than 100 nm thick. + Die Transmissionselektronenmikroskopie + Transmission Electron Microscopy - + - - + + - + - + 1 - + - - - - + + + + + planeMillerIndice represents Miller indice of lattice plane in string. + plane miller indice - + - + - + - - + + - - - + + + Coordinate Vector A coordinate vector according to standard basis, i.e., e_x (1, 0, 0), e_y(0, 1, 0), and e_z (0, 0, 1). - + + + + 1 + + + - - - - The mathematical concept to represent the periodicity of a crystal. A lattice defines a periodic arrangement of one or more atoms. - Lattice + A sense that characterizes a directed line, i.e., it has a start and an end. + Ein Element, das eine gerichtete Linie charakterisiert, d. h. sie hat einen Anfang und ein Ende. + Line Sense + die Versetzunglinie - - - + + + + 1 + - + - - + + - + - + - planeMillerIndice represents Miller indice of lattice plane in string. - plane miller indice + familyDirectionMillerIndice represents a set of miller indices of lattice direction in string. + family direction miller indice - - - - + + + Said Fathalla + Stefan Sandfeld + 21.03.2022 + Ahmad Zainul Ihsan + + Dislocation Ontology + DISO + Dislocation Ontology + https://github.com/Materials-Data-Science-and-Informatics/dislocation-ontology + 1.0 - - - The shape function is the function that interpolates the solution between the discrete values obtained at the mesh nodes. In discretized dislocation, the shape function determines the shape of a segment and ultimately determines the shape of the line. Examples of shape function that is used to discretize the dislocation are circular, elliptic, spiral, linear, cubic, and quintic. - Shape Function + + + + - - - + + + + + + hasMathematicalRepresentation relates the entity with its mathematical representation. + has mathematical representation - - - - - - - - The lattice plane forms an infinitely stretched plane (characterized through a plane normal) that cuts through lattice points such that, again, a regular arrangement of lattice points in the plane occurs. - Lattice Plane + + + + - + - - + + + + + + + + hasShapeFunction represents the relationship between discretized line and shape function. + has shape function - - - + + + - - - + + + + + + Sub-property of hasNode that relates the segment with the start node. + has start node + + + + + + + + + hasLatticePlane represents the relationship between a lattice and lattice planes. + has lattice plane - + - - 1 - + + - - - + + + - + - - 1 - + + - + - - Euclidean vector that represents the position of a point P in space in relation to an arbitrary reference origin O. - Position Vector + + Linear or one-dimensional defect around which some of the atoms are misaligned. + Linearer oder eindimensionaler Defekt, um den herum einige Atome falsch ausgerichtet sind. + Line Defect + der linienhafter Defekt + + + + + + hasBurgersVector represents the relationship between dislocation to Burgers vector. + has Burgers vector - + hasSlipDirection represents the relationship between the slip plane or slip system with the slip direction. has slip direction - - + + + + + + + + + + - + + + + + - + + A dislocation that has a line sense parallel to its Burgers vector. + Eine Versetzung, die Burgersvektor und Versetzungslinie liegen parallel. + Screw Dislocation + die Schraubenversetzung - + - - + + - - - + + + - + - - 1 - - - - - Said Fathalla - Stefan Sandfeld - 21.03.2022 - Ahmad Zainul Ihsan - - Dislocation Ontology - DISO - Dislocation Ontology - https://github.com/Materials-Data-Science-and-Informatics/dislocation-ontology - 1.0 + + - + - + + + Mathematical representation of dislocation as 'Line'. An instance of mathematical representation of a dislocation line is an oriented curve parameterized by its arc length. + Mathematische Darstellung der Versetzung als "Linie". Ein Beispiel für die mathematische Darstellung einer Versetzungslinie ist eine orientierte Kurve, die durch ihre Bogenlänge parametrisiert ist. + Line + die Linie - - - - - hasBurgersVector represents the relationship between dislocation to Burgers vector. - has Burgers vector + + + + 1 + - + - Sub-property of hasNode that relates the segment with the start node. - has start node - - - - - - (Euclidean) vector is used to represent quantities that both magnitude and direction. - Vector - (Euclidean) vector used to represent quantities that both magnitude and direction. - - - - - - - - - - - - - - - - - Linear or one-dimensional defect around which some of the atoms are misaligned. In the mesoscale, a dislocation is a line object that is a boundary separating the regions on the slip plane which have undergone slip from those that have not. - The presence of dislocation introduces local disturbance of the atomic-level geometry. - Dislocation - Versetzung + Sub-property of hasNode that relates the segment with the end node. + has end node - - - - + + + + + Inverse of hasSegment + is segment of @@ -394,592 +442,550 @@ movesOn represents the relationship between dislocation and slip plane. moves on - - - - - - - The vector direction inside the lattice that is connecting two lattice points. - Lattice Direction + + + + + hasFamilyCrystalDirection represents the relationship between lattice direction and family of crystal direction. + has family crystal direction - + - + - - - + + + + + + + + + + hasLatticePoint represents the relationship between a lattice or lattice plane or lattice direction with lattice point. + has lattice point - + + Der Einheitsnormalvektor der Gleitebenen. The unit normal vector of slip planes. Slip Plane Normal + der Gleitebene Normalvektor - - - - 1 - - - - - - A fixed point that is needed by the vector to identify other points in the space relative to its origin. - Ursprung - Vector Origin - - - - - + + + - + - A <b>Quantity Kind</b> is any observable property that can be measured and quantified numerically. Familiar examples include physical properties such as length, mass, time, force, energy, power, electric charge, etc. Less familiar examples include currency, interest rate, price to earning ratio, and information capacity. + + + <p class="lm-para">A quantity is the measurement of an observable property of a particular object, event, or physical system. A quantity is always associated with the context of measurement (i.e. the thing measured, the measured value, the accuracy of measurement, etc.) whereas the underlying quantity kind is independent of any particular measurement. Thus, length is a quantity kind while the height of a rocket is a specific quantity of length; its magnitude that may be expressed in meters, feet, inches, etc. Examples of physical quantities include physical constants, such as the speed of light in a vacuum, Planck's constant, the electric permittivity of free space, and the fine structure constant. </p> + +<p class="lm-para">In other words, quantities are quantifiable aspects of the world, such as time, distance, velocity, mass, momentum, energy, and weight, and units are used to describe their measure. Many of which are related to each other by various physical laws, and as a result the units of some of the quantities can be expressed as products (or ratios) of powers of other units (e.g., momentum is mass times velocity and velocity is measured in distance divided by time). These relationships are discussed in dimensional analysis. Those that cannot be so expressed can be regarded as &quot;fundamental&quot; in this sense.</p> +<p class="lm-para">A quantity is distinguished from a &quot;quantity kind&quot; in that the former carries a value and the latter is a type specifier.</p> - Quantity Kind - - - - - 1 - - - - - The displacement of atoms from their perfect lattice sites due to the existence of defects, e.g., point defect, line defect, and grain boundary. - Lattice Displacement + Quantity - - - - + + + - - - + + + + + hasSlipSystem represents the relationship between a crystal structure and slip system. + has slip system - - - - + + + + + (Euclidean) vector is used to represent quantities that both magnitude and direction. + Vector + (Euclidean) vector used to represent quantities that both magnitude and direction. - + - - - + + - - - - - A dislocation that has a line sense perpendicular to its Burgers vector. - Edge Dislocation + + + - + - - - A slip system is defined as the set of slip planes with the same unit normal vector and the same slip direction. - Slip System - - - - + + Euclidean vector that represents the position of a point P in space in relation to an arbitrary reference origin O. + Position Vector - - - + + + + + observedBy represents the relationship between dislocation and microscopy techniques, e.g., TEM, FIM, etc. + observed by - + - - - - - - A unit of measure, or unit, is a particular quantity value that has been chosen as a scale for measuring other quantities the same kind (more generally of equivalent dimension). For example, the meter is a quantity of length that has been rigorously defined and standardized by the BIPM (International Board of Weights and Measures). Any measurement of the length can be expressed as a number multiplied by the unit meter. More formally, the value of a physical quantity Q with respect to a unit (U) is expressed as the scalar multiple of a real number (n) and U, as \(Q = nU\). - - - Unit + + - - - + + + - - - + + + + 1 + - + - - Linear or one-dimensional defect around which some of the atoms are misaligned. - Line Defect + - - - + + + + - + - - - hasPositionVector represents the relationship between entity and position vector. - has position vector + + + hasRepresentation relates the entity to another representation of entity. + has representation - + hasSlipPlaneNormal represents the relationship between a slip plane or slip system with slip plane normal. has slip plane normal - - - - - hasFamilyCrystalDirection represents the relationship between lattice direction and family of crystal direction. - has family crystal direction + + + + + + A basis defines a spatial unit used to express fractional coordinates. + Basis + Set of vector(in 2-D two vectors and in 3-D three vectors) that linearly independent. - - - - - hasLatticeDirection represents the relationship between a lattice or a lattice plane with lattice directions. - has lattice direction + + + + + + Das Segment ist ein Teil einer Linie, der von zwei bestimmten Endpunkten begrenzt wird und Punkte auf der Linie zwischen den Endpunkten enthalten kann. + The segment is a part of a line bounded by two distinct end points and may contain points on the line between its endpoints. + Segment + die Strecke - + - + 1 - - - - - - A set of symmetrically equivalent planes in the lattice. - Family of Crystal Plane + + Die Feldionenmikroskopie (FIM) ist eine Mikroskopietechnik, mit der sich die Anordnung von Atomen abbilden lässt. Field Ion Microscopy (FIM) is a microscopy technique that can be used to image the arrangement of atoms. + Das Feldionenmikroskop Field Ion Microscopy - + + + + + + hasSlipPlane represents the relationship between crystal structure and slip plane. + has slip plane + + - - + + - - - - - - hasSegment represents the relationship between discretized line and segment. - has segment + + + - - - + + + + Der Gitterpunkt ist der Punkt, an dem sich ein Atom oder ein Molekül befindet. + Lattice point is the point where atom(s) or molecule(s) is located. + Lattice Point + der Gitterpunkt - + - - + + - - - - - - hasMathematicalRepresentation relates the entity with its mathematical representation. - has mathematical representation + + - + - - - Inverse of hasSegment - is segment of + + + hasLatticeDirection represents the relationship between a lattice or a lattice plane with lattice directions. + has lattice direction + + + + - + - + The crystallographic defect is a lattice irregularity that has one or more dimensions on the order of an atomic diameter. + Crystallographic Defect - + - - + + - - - + + + Die Formfunktion ist die Funktion, die die Lösung zwischen den an den Netzknoten erhaltenen diskreten Werten interpoliert. Bei der diskretisierten Versetzung bestimmt die Formfunktion die Form eines Segments und letztlich die Form der Linie. Beispiele für Formfunktionen, die zur Diskretisierung der Versetzung verwendet werden, sind kreisförmig, elliptisch, spiralförmig, linear, kubisch und quintisch. + The shape function is the function that interpolates the solution between the discrete values obtained at the mesh nodes. In discretized dislocation, the shape function determines the shape of a segment and ultimately determines the shape of the line. Examples of shape function that is used to discretize the dislocation are circular, elliptic, spiral, linear, cubic, and quintic. + Shape Function + die Formfunktion - + - + + Die Richtung in der Gleitebene, in der die plastische Verformung stattfindet. Die Gleitrichtung entspricht einem der kürzesten Translationsvektoren des Gitters. + The direction in the slip plane along which plastic deformation takes place. The slip direction corresponds to one of the shortest lattice translation vectors. + Slip Direction + die Gleitrichtung - + - - + + - + - - - - - The numerical representation of the dislocation line that is discretized into the number of segments. - Discretized Line + - - - + + - - - - - hasVectorOrigin represents the relationship between lattice plane and origin. - has vector origin + + + + + + + Die Vektorrichtung innerhalb des Gitters, die zwei Gitterpunkte verbindet. + The vector direction inside the lattice that is connecting two lattice points. + Die Gitterrichtung + Lattice Direction - - - + + + - - - + + + + + resultsIn represents the relationship between dislocation and lattice displacement. + results in - + - - + + 1 + - + - - An elementary unit (length order of lattice parameter) of lattice translation. The basic notion of the Burgers vector comes from the closure failure of an initially perfect lattice due to the existence of dislocation. The magnitude and direction of closure failure are characterized by the Burgers vector. - Burgers Vector + + + + + Die numerische Darstellung der Versetzungslinie, die in die Anzahl der Segmente diskretisiert ist. + The numerical representation of the dislocation line that is discretized into the number of segments. + Discretized Line + die Diskretisierte Linie - + - - - hasLatticePoint represents the relationship between a lattice or lattice plane or lattice direction with lattice point. - has lattice point - - - - + + + hasNode represents the relationship between segment and node. + has node - - - + + + + + + hasSegment represents the relationship between discretized line and segment. + has segment - + - - + + - + - Transmission electron microscopy (TEM) is a microscopy technique in which a beam of electrons is transmitted through a specimen to form an image. The specimen is often an ultrathin section less than 100 nm thick. - Transmission Electron Microscopy - - - - - 1 - - - - - - + + + A slip system is defined as the set of slip planes with the same unit normal vector and the same slip direction. + Ein Gleitsystem ist definiert als die Menge der Gleitebenen mit dem gleichen Einheitsnormalvektor und der gleichen Gleitrichtung. + Slip System + das Gleitsystem - - - + + + - + - + - familyDirectionMillerIndice represents a set of miller indices of lattice direction in string. - family direction miller indice + directionMillerIndice represents Miller indice of lattice direction in string. + direction miller indice - - - - Lattice point is the point where atom(s) or molecule(s) is located. - Lattice Point + + + - - - + + + - + - - - A set of symmetrically equivalent directions in the lattice. - Family of Crystal Direction - - - - + + + A crystal structure is described by the lattice geometry and atomic arrangements within the unit cell. + Crystal Structure - + - - - - The segment is a part of a line bounded by two distinct end points and may contain points on the line between its endpoints. - Segment + - - - - + + - - - + + + - + - - 1 - + + - - - - - - hasNumericalRepresentation relates the entity with its numerical representation. - has numerical representation + + + - + - - + + - + 1 - - - - The direction in the slip plane along which plastic deformation takes place. The slip direction corresponds to one of the shortest lattice translation vectors. - Slip Direction + + + - + - - - - - - 1 - - - - - - - - - - hasRepresentation relates the entity to another representation of entity. - has representation + - - - - - - A basis defines a spatial unit used to express fractional coordinates. - Basis - Set of vector(in 2-D two vectors and in 3-D three vectors) that linearly independent. + + + - - - - + + + - + - - + + - + - - 1 - + + - + - - A dislocation that has a line sense parallel to its Burgers vector. - Screw Dislocation + - - + + - - - - - hasLatticePlane represents the relationship between a lattice and lattice planes. - has lattice plane + + + - - - + + + - + + + + + - - + + 1 + - - - + + + + - - - + + + + + + Das mathematische Konzept zur Darstellung der Periodizität eines Kristalls. Ein Gitter definiert eine periodische Anordnung von einem oder mehreren Atomen. + The mathematical concept to represent the periodicity of a crystal. A lattice defines a periodic arrangement of one or more atoms. + Lattice - - + + + - + - - - - - - + + - - + + - + - - + + 1 + - + - - - - - - + + - - - + + + + + hasPositionVector represents the relationship between entity and position vector. + has position vector - - - + + + - - - - - directionMillerIndice represents Miller indice of lattice direction in string. - direction miller indice + + - - - + + + + 1 + - + - - + + - - - - + + + + A set of symmetrically equivalent planes in the lattice. + Steht für Kristallformen, d. h. die Menge aller symmetrisch äquivalenten Flächen. + Family of Crystal Plane + die Familie der Gitterebene - + - - + + - - + + - - - - - - + - - - A crystal structure is described by the lattice geometry and atomic arrangements within the unit cell. - Crystal Structure + - + - The crystallographic defect is a lattice irregularity that has one or more dimensions on the order of an atomic diameter. - Crystallographic Defect + + An elementary unit (length order of lattice parameter) of lattice translation. The basic notion of the Burgers vector comes from the closure failure of an initially perfect lattice due to the existence of dislocation. The magnitude and direction of closure failure are characterized by the Burgers vector. + Eine elementare Einheit (Längenordnung der Gitterparameter) der Gittertranslation. Der grundlegende Begriff des Burgers-Vektors leitet sich aus dem Versagen der Schließung eines ursprünglich perfekten Gitters aufgrund der Existenz von Versetzungen ab. Das Ausmaß und die Richtung des Schließfehlers werden durch den Burgers-Vektor charakterisiert. + Burgers Vector + der Burgersvektor - - - + + - + - + - - - + + + - - - + + + + - - - - - observedBy represents the relationship between dislocation and microscopy techniques, e.g., TEM, FIM, etc. - observed by + + + + - - - + + + + 1 + + + + + @@ -988,239 +994,280 @@ slipArea represents the slip area of discretized line in double. slipArea - - - + + + + + + hasNumericalRepresentation relates the entity with its numerical representation. + has numerical representation - - - - + + + - - - - - - Vector components/vector coordinates of particular basis. It has relation to a specific basis. - Vector Component of Basis + + + + - + - - + + + + + + + - + - - + + - + - + - - - + + + + + + + - + - - + + - + - - - - In classical Euclidean geometry, a point is a primitive notion that models an exact location in the space, and has no length, width, or thickness. - Point + + + + - + - + - - - - + + + - - + + + - - - + + + + - - + + - + + + + + - - + + - - - + + + - - - + + + - - + + - + - + - - + + - - + + + + - - + + + - - - + + + + - + - - - - + + + A dislocation that has a line sense perpendicular to its Burgers vector. + Eine Versetzung, die Burgersvektor und Versetzungslinie stehen senkrecht zueinander + Edge Dislocation + die Stufenversetzung - - - + + + + - - - - - hasLineSense represents the relationship between dislocation and line sense. - has line sense + + + - - + + - - - + + + + + + + - + - - + + - + + + + 1 + + + + + + + - - + + + - - - + + + - - - - + + - + - - + + 1 + - - - + + - - - A sense that characterizes a directed line, i.e., it has a start and an end. - Line Sense + + - - - + + - - + + - - - - - + + + + - + - - - Mathematical representation of dislocation as 'Line'. An instance of mathematical representation of a dislocation line is an oriented curve parameterized by its arc length. - Line + + + + - + - - + + - - + + - - + + + - + - - - + + + - + - + - - + + + - + - - + + - - - + + + - - + + + + + + - - + + + - - + + + - + + + + + + + + - + diff --git a/DISO/dislocation-ontology.ttl b/DISO/dislocation-ontology.ttl index f468d8b..b8ace22 100644 --- a/DISO/dislocation-ontology.ttl +++ b/DISO/dislocation-ontology.ttl @@ -1,22 +1,22 @@ @prefix : . +@prefix dcterms: . @prefix owl: . @prefix qudt: . @prefix rdf: . @prefix rdfs: . @prefix skos: . -@prefix terms: . @prefix vann: . @prefix xsd: . -terms:contributor a owl:AnnotationProperty . +dcterms:contributor a owl:AnnotationProperty . -terms:created a owl:AnnotationProperty . +dcterms:created a owl:AnnotationProperty . -terms:creator a owl:AnnotationProperty . +dcterms:creator a owl:AnnotationProperty . -terms:license a owl:AnnotationProperty . +dcterms:license a owl:AnnotationProperty . -terms:title a owl:AnnotationProperty . +dcterms:title a owl:AnnotationProperty . vann:preferredNamespacePrefix a owl:AnnotationProperty . @@ -28,19 +28,21 @@ skos:defintion a owl:AnnotationProperty . : a owl:Ontology ; rdfs:label "Dislocation Ontology"@en ; - terms:contributor "Said Fathalla"^^xsd:string, + dcterms:contributor "Said Fathalla"^^xsd:string, "Stefan Sandfeld"^^xsd:string ; - terms:created "21.03.2022"@en ; - terms:creator "Ahmad Zainul Ihsan"@en ; - terms:license ; - terms:title "Dislocation Ontology"@en ; + dcterms:created "21.03.2022"@en ; + dcterms:creator "Ahmad Zainul Ihsan"@en ; + dcterms:license ; + dcterms:title "Dislocation Ontology"@en ; vann:preferredNamespacePrefix "DISO"^^xsd:string ; rdfs:seeAlso "https://github.com/Materials-Data-Science-and-Informatics/dislocation-ontology" ; owl:versionInfo 1.0 . a owl:Class ; - rdfs:label "Edge Dislocation"@en ; - rdfs:comment "A dislocation that has a line sense perpendicular to its Burgers vector."@en ; + rdfs:label "die Stufenversetzung"@de, + "Edge Dislocation"@en ; + rdfs:comment "Eine Versetzung, die Burgersvektor und Versetzungslinie stehen senkrecht zueinander"@de, + "A dislocation that has a line sense perpendicular to its Burgers vector."@en ; rdfs:subClassOf ; owl:disjointWith . @@ -123,13 +125,17 @@ qudt:unit a owl:ObjectProperty . a owl:DatatypeProperty . a owl:Class ; - rdfs:label "Line Defect"@en ; - rdfs:comment "Linear or one-dimensional defect around which some of the atoms are misaligned."@en ; + rdfs:label "der linienhafter Defekt"@de, + "Line Defect"@en ; + rdfs:comment "Linearer oder eindimensionaler Defekt, um den herum einige Atome falsch ausgerichtet sind."@de, + "Linear or one-dimensional defect around which some of the atoms are misaligned."@en ; rdfs:subClassOf . a owl:Class ; - rdfs:label "Screw Dislocation"@en ; - rdfs:comment "A dislocation that has a line sense parallel to its Burgers vector."@en ; + rdfs:label "die Schraubenversetzung"@de, + "Screw Dislocation"@en ; + rdfs:comment "Eine Versetzung, die Burgersvektor und Versetzungslinie liegen parallel."@de, + "A dislocation that has a line sense parallel to its Burgers vector."@en ; rdfs:subClassOf . a owl:DatatypeProperty ; @@ -230,12 +236,6 @@ qudt:unit a owl:ObjectProperty . rdfs:label "Vector Component of Basis"@en ; rdfs:comment "Vector components/vector coordinates of particular basis. It has relation to a specific basis."@en ; rdfs:subClassOf [ a owl:Class ; - owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], - [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onDataRange xsd:double ; owl:onProperty ; @@ -246,6 +246,12 @@ qudt:unit a owl:ObjectProperty . owl:onDataRange xsd:double ; owl:onProperty ; owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ] ) ], + [ a owl:Class ; + owl:intersectionOf ( [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ], qudt:Quantity . a owl:ObjectProperty . @@ -253,22 +259,29 @@ qudt:unit a owl:ObjectProperty . a owl:ObjectProperty . a owl:Class ; - rdfs:label "Field Ion Microscopy"@en ; - rdfs:comment "Field Ion Microscopy (FIM) is a microscopy technique that can be used to image the arrangement of atoms."@en ; + rdfs:label "Das Feldionenmikroskop"@de, + "Field Ion Microscopy"@en ; + rdfs:comment "Die Feldionenmikroskopie (FIM) ist eine Mikroskopietechnik, mit der sich die Anordnung von Atomen abbilden lässt."@de, + "Field Ion Microscopy (FIM) is a microscopy technique that can be used to image the arrangement of atoms."@en ; owl:disjointWith . a owl:Class ; - rdfs:label "Lattice Displacement"@en ; - rdfs:comment "The displacement of atoms from their perfect lattice sites due to the existence of defects, e.g., point defect, line defect, and grain boundary."@en . + rdfs:label "die Verschiebung"@de, + "Lattice Displacement"@en ; + rdfs:comment "Die Verschiebung von Atomen von ihren perfekten Gitterpunkt aufgrund des Fehlens von Defekten, z. B. Punktuelle Defekte, Linearedefekte und Korngrenzen."@de, + "The displacement of atoms from their perfect lattice sites due to the existence of defects, e.g., point defect, line defect, and grain boundary."@en . a owl:Class ; - rdfs:label "Shape Function"@en ; - rdfs:comment "The shape function is the function that interpolates the solution between the discrete values obtained at the mesh nodes. In discretized dislocation, the shape function determines the shape of a segment and ultimately determines the shape of the line. Examples of shape function that is used to discretize the dislocation are circular, elliptic, spiral, linear, cubic, and quintic."@en . + rdfs:label "die Formfunktion"@de, + "Shape Function"@en ; + rdfs:comment "Die Formfunktion ist die Funktion, die die Lösung zwischen den an den Netzknoten erhaltenen diskreten Werten interpoliert. Bei der diskretisierten Versetzung bestimmt die Formfunktion die Form eines Segments und letztlich die Form der Linie. Beispiele für Formfunktionen, die zur Diskretisierung der Versetzung verwendet werden, sind kreisförmig, elliptisch, spiralförmig, linear, kubisch und quintisch."@de, + "The shape function is the function that interpolates the solution between the discrete values obtained at the mesh nodes. In discretized dislocation, the shape function determines the shape of a segment and ultimately determines the shape of the line. Examples of shape function that is used to discretize the dislocation are circular, elliptic, spiral, linear, cubic, and quintic."@en . a owl:Class ; - rdfs:label "Ursprung"@de, + rdfs:label "der Ursprung"@de, "Vector Origin"@en ; - rdfs:comment "A fixed point that is needed by the vector to identify other points in the space relative to its origin."@en ; + rdfs:comment "Ein Fixpunkt, der vom Vektor benötigt wird, um andere Punkte im Raum relativ zu seinem Ursprung zu identifizieren."@de, + "A fixed point that is needed by the vector to identify other points in the space relative to its origin."@en ; rdfs:subClassOf . a owl:DatatypeProperty ; @@ -357,27 +370,28 @@ qudt:unit a owl:ObjectProperty . rdfs:label "Crystal Structure"@en ; rdfs:comment "A crystal structure is described by the lattice geometry and atomic arrangements within the unit cell."@en ; rdfs:subClassOf [ a owl:Class ; - owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], - [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ] [ a owl:Restriction ; owl:allValuesFrom ; - owl:onProperty ] ) ] . + owl:onProperty ] ) ], + [ a owl:Class ; + owl:intersectionOf ( [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ] . a owl:Class ; rdfs:label "Lattice"@en ; - rdfs:comment "The mathematical concept to represent the periodicity of a crystal. A lattice defines a periodic arrangement of one or more atoms."@en ; + rdfs:comment "Das mathematische Konzept zur Darstellung der Periodizität eines Kristalls. Ein Gitter definiert eine periodische Anordnung von einem oder mehreren Atomen."@de, + "The mathematical concept to represent the periodicity of a crystal. A lattice defines a periodic arrangement of one or more atoms."@en ; rdfs:subClassOf [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ], [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; @@ -386,19 +400,23 @@ qudt:unit a owl:ObjectProperty . owl:onProperty ] ) ], [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ] . + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ] . a owl:Class ; - rdfs:label "Burgers Vector"@en ; - rdfs:comment "An elementary unit (length order of lattice parameter) of lattice translation. The basic notion of the Burgers vector comes from the closure failure of an initially perfect lattice due to the existence of dislocation. The magnitude and direction of closure failure are characterized by the Burgers vector."@en ; + rdfs:label "der Burgersvektor"@de, + "Burgers Vector"@en ; + rdfs:comment "Eine elementare Einheit (Längenordnung der Gitterparameter) der Gittertranslation. Der grundlegende Begriff des Burgers-Vektors leitet sich aus dem Versagen der Schließung eines ursprünglich perfekten Gitters aufgrund der Existenz von Versetzungen ab. Das Ausmaß und die Richtung des Schließfehlers werden durch den Burgers-Vektor charakterisiert."@de, + "An elementary unit (length order of lattice parameter) of lattice translation. The basic notion of the Burgers vector comes from the closure failure of an initially perfect lattice due to the existence of dislocation. The magnitude and direction of closure failure are characterized by the Burgers vector."@en ; rdfs:subClassOf . a owl:Class ; - rdfs:label "Family of Crystal Direction"@en ; - rdfs:comment "A set of symmetrically equivalent directions in the lattice."@en ; + rdfs:label "die Familie der Gitterrichtung"@de, + "Family of Crystal Direction"@en ; + rdfs:comment "die Menge aller symmetrisch äquivalenten Richtungen."@de, + "A set of symmetrically equivalent directions in the lattice."@en ; rdfs:subClassOf [ a owl:Restriction ; owl:onDataRange xsd:string ; owl:onProperty ; @@ -406,12 +424,16 @@ qudt:unit a owl:ObjectProperty . owl:disjointWith . a owl:Class ; - rdfs:label "Line Sense"@en ; - rdfs:comment "A sense that characterizes a directed line, i.e., it has a start and an end."@en . + rdfs:label "die Versetzunglinie"@de, + "Line Sense"@en ; + rdfs:comment "Ein Element, das eine gerichtete Linie charakterisiert, d. h. sie hat einen Anfang und ein Ende."@de, + "A sense that characterizes a directed line, i.e., it has a start and an end."@en . a owl:Class ; - rdfs:label "Transmission Electron Microscopy"@en ; - rdfs:comment "Transmission electron microscopy (TEM) is a microscopy technique in which a beam of electrons is transmitted through a specimen to form an image. The specimen is often an ultrathin section less than 100 nm thick."@en . + rdfs:label "Die Transmissionselektronenmikroskopie"@de, + "Transmission Electron Microscopy"@en ; + rdfs:comment "Die Transmissionselektronenmikroskopie (TEM) ist eine Mikroskopietechnik, bei der ein Elektronenstrahl durch eine Probe geschickt wird, um ein Bild zu erzeugen. Bei der Probe handelt es sich häufig um einen ultradünnen Schnitt von weniger als 100 nm Dicke."@de, + "Transmission electron microscopy (TEM) is a microscopy technique in which a beam of electrons is transmitted through a specimen to form an image. The specimen is often an ultrathin section less than 100 nm thick."@en . a owl:Class ; rdfs:label "Coordinate Vector"@en ; @@ -452,8 +474,10 @@ qudt:unit a owl:ObjectProperty . skos:defintion "(Euclidean) vector used to represent quantities that both magnitude and direction."@en . a owl:Class ; - rdfs:label "Family of Crystal Plane"@en ; - rdfs:comment "A set of symmetrically equivalent planes in the lattice."@en ; + rdfs:label "die Familie der Gitterebene"@de, + "Family of Crystal Plane"@en ; + rdfs:comment "Steht für Kristallformen, d. h. die Menge aller symmetrisch äquivalenten Flächen."@de, + "A set of symmetrically equivalent planes in the lattice."@en ; rdfs:subClassOf [ a owl:Restriction ; owl:onDataRange xsd:string ; owl:onProperty ; @@ -475,21 +499,27 @@ qudt:unit a owl:ObjectProperty . rdfs:range . a owl:Class ; - rdfs:label "Line"@en ; - rdfs:comment "Mathematical representation of dislocation as 'Line'. An instance of mathematical representation of a dislocation line is an oriented curve parameterized by its arc length."@en ; + rdfs:label "die Linie"@de, + "Line"@en ; + rdfs:comment "Mathematische Darstellung der Versetzung als \"Linie\". Ein Beispiel für die mathematische Darstellung einer Versetzungslinie ist eine orientierte Kurve, die durch ihre Bogenlänge parametrisiert ist."@de, + "Mathematical representation of dislocation as 'Line'. An instance of mathematical representation of a dislocation line is an oriented curve parameterized by its arc length."@en ; rdfs:subClassOf [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ] ; owl:disjointWith . a owl:Class ; - rdfs:label "Slip Direction"@en ; - rdfs:comment "The direction in the slip plane along which plastic deformation takes place. The slip direction corresponds to one of the shortest lattice translation vectors."@en ; + rdfs:label "die Gleitrichtung"@de, + "Slip Direction"@en ; + rdfs:comment "Die Richtung in der Gleitebene, in der die plastische Verformung stattfindet. Die Gleitrichtung entspricht einem der kürzesten Translationsvektoren des Gitters."@de, + "The direction in the slip plane along which plastic deformation takes place. The slip direction corresponds to one of the shortest lattice translation vectors."@en ; rdfs:subClassOf . a owl:Class ; - rdfs:label "Slip System"@en ; - rdfs:comment "A slip system is defined as the set of slip planes with the same unit normal vector and the same slip direction."@en ; + rdfs:label "das Gleitsystem"@de, + "Slip System"@en ; + rdfs:comment "Ein Gleitsystem ist definiert als die Menge der Gleitebenen mit dem gleichen Einheitsnormalvektor und der gleichen Gleitrichtung."@de, + "A slip system is defined as the set of slip planes with the same unit normal vector and the same slip direction."@en ; rdfs:subClassOf [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; @@ -504,14 +534,18 @@ qudt:unit a owl:ObjectProperty . owl:onProperty ] ) ] . a owl:Class ; - rdfs:label "Node"@en ; - rdfs:comment "A point of a segment."@en ; + rdfs:label "der Knoten"@de, + "Node"@en ; + rdfs:comment "Ein Punkt eines Segments."@de, + "A point of a segment."@en ; rdfs:subClassOf ; owl:disjointWith . a owl:Class ; - rdfs:label "Slip Plane Normal"@en ; - rdfs:comment "The unit normal vector of slip planes."@en ; + rdfs:label "der Gleitebene Normalvektor"@de, + "Slip Plane Normal"@en ; + rdfs:comment "Der Einheitsnormalvektor der Gleitebenen."@de, + "The unit normal vector of slip planes."@en ; rdfs:subClassOf [ a owl:Restriction ; owl:onDataRange xsd:string ; owl:onProperty ; @@ -533,102 +567,107 @@ qudt:unit a owl:ObjectProperty . rdfs:range . a owl:Class ; - rdfs:label "Lattice Point"@en ; - rdfs:comment "Lattice point is the point where atom(s) or molecule(s) is located."@en ; + rdfs:label "der Gitterpunkt"@de, + "Lattice Point"@en ; + rdfs:comment "Der Gitterpunkt ist der Punkt, an dem sich ein Atom oder ein Molekül befindet."@de, + "Lattice point is the point where atom(s) or molecule(s) is located."@en ; rdfs:subClassOf . a owl:Class ; - rdfs:label "Segment"@en ; - rdfs:comment "The segment is a part of a line bounded by two distinct end points and may contain points on the line between its endpoints."@en ; + rdfs:label "die Strecke"@de, + "Segment"@en ; + rdfs:comment "Das Segment ist ein Teil einer Linie, der von zwei bestimmten Endpunkten begrenzt wird und Punkte auf der Linie zwischen den Endpunkten enthalten kann."@de, + "The segment is a part of a line bounded by two distinct end points and may contain points on the line between its endpoints."@en ; rdfs:subClassOf [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ], + owl:allValuesFrom ; + owl:onProperty ], [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ], [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] . + owl:allValuesFrom ; + owl:onProperty ] . a owl:Class ; - rdfs:label "Slip Plane"@en ; - rdfs:comment "The crystallographic/lattice plane along which the dislocation line traverses/moves. The slip plane is usually the plane with the highest density of atoms, i.e. most widely spaced."@en ; + rdfs:label "die Gleitebene"@de, + "Slip Plane"@en ; + rdfs:comment "Die kristallografische/Gitterebene, entlang derer die Versetzungslinie verläuft/bewegt wird. Die Gleitebene ist in der Regel die Ebene mit der höchsten Dichte an Atomen, d. h. mit dem größten Abstand."@de, + "The crystallographic/lattice plane along which the dislocation line traverses/moves. The slip plane is usually the plane with the highest density of atoms, i.e. most widely spaced."@en ; rdfs:subClassOf [ a owl:Class ; - owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], - [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ] [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ] ) ], + [ a owl:Class ; + owl:intersectionOf ( [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ], . a owl:Class ; - rdfs:label "Discretized Line"@en ; - rdfs:comment "The numerical representation of the dislocation line that is discretized into the number of segments."@en ; + rdfs:label "die Diskretisierte Linie"@de, + "Discretized Line"@en ; + rdfs:comment "Die numerische Darstellung der Versetzungslinie, die in die Anzahl der Segmente diskretisiert ist."@de, + "The numerical representation of the dislocation line that is discretized into the number of segments."@en ; rdfs:subClassOf [ a owl:Restriction ; + owl:onDataRange xsd:double ; + owl:onProperty ; + owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ], + [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ], [ a owl:Restriction ; owl:allValuesFrom ; - owl:onProperty ], - [ a owl:Restriction ; - owl:onDataRange xsd:double ; - owl:onProperty ; - owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ] ; + owl:onProperty ] ; owl:disjointWith . a owl:Class ; - rdfs:label "Versetzung"@de, + rdfs:label "die Versetzung"@de, "Dislocation"@en ; - rdfs:comment "Linear or one-dimensional defect around which some of the atoms are misaligned. In the mesoscale, a dislocation is a line object that is a boundary separating the regions on the slip plane which have undergone slip from those that have not."@en, + rdfs:comment "Ein linearer oder eindimensionaler Defekt, um den herum einige der Atome falsch ausgerichtet sind. Im Mesoscale ist eine Versetzung ein linienförmiges Objekt, das eine Grenze darstellt, die die Regionen auf der Gleitebene, in denen ein Gleiten stattgefunden hat, von denen trennt, in denen dies nicht der Fall war."@de, + "Linear or one-dimensional defect around which some of the atoms are misaligned. In the mesoscale, a dislocation is a line object that is a boundary separating the regions on the slip plane which have undergone slip from those that have not."@en, "The presence of dislocation introduces local disturbance of the atomic-level geometry."@en ; - rdfs:subClassOf [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ], + rdfs:subClassOf [ a owl:Class ; + owl:intersectionOf ( [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ], + [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ], + [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ], + [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ], [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ] [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ] ) ], - [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ], [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ], [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ], - [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ], - [ a owl:Class ; - owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], + owl:onProperty ; + owl:someValuesFrom ], . a owl:Class ; - rdfs:label "Lattice Plane"@en ; - rdfs:comment "The lattice plane forms an infinitely stretched plane (characterized through a plane normal) that cuts through lattice points such that, again, a regular arrangement of lattice points in the plane occurs."@en ; + rdfs:label "die Gitterebene"@de, + "Lattice Plane"@en ; + rdfs:comment "Die Gitterebene bildet eine unendlich gestreckte Ebene (gekennzeichnet durch eine Ebenennormale), die die Gitterpunkte so schneidet, dass wiederum eine regelmäßige Anordnung der Gitterpunkte in der Ebene entsteht."@de, + "The lattice plane forms an infinitely stretched plane (characterized through a plane normal) that cuts through lattice points such that, again, a regular arrangement of lattice points in the plane occurs."@en ; rdfs:subClassOf [ a owl:Restriction ; owl:onDataRange xsd:string ; owl:onProperty ; owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ], - [ a owl:Class ; - owl:intersectionOf ( [ a owl:Restriction ; - owl:onProperty ; - owl:someValuesFrom ] [ a owl:Restriction ; - owl:allValuesFrom ; - owl:onProperty ] ) ], [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ], @@ -638,21 +677,29 @@ qudt:unit a owl:ObjectProperty . owl:someValuesFrom ] [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ] ) ], + [ a owl:Class ; + owl:intersectionOf ( [ a owl:Restriction ; + owl:onProperty ; + owl:someValuesFrom ] [ a owl:Restriction ; + owl:allValuesFrom ; + owl:onProperty ] ) ], . a owl:Class ; - rdfs:label "Lattice Direction"@en ; - rdfs:comment "The vector direction inside the lattice that is connecting two lattice points."@en ; - rdfs:subClassOf [ a owl:Restriction ; - owl:onDataRange xsd:string ; - owl:onProperty ; - owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ], - [ a owl:Class ; + rdfs:label "Die Gitterrichtung"@de, + "Lattice Direction"@en ; + rdfs:comment "Die Vektorrichtung innerhalb des Gitters, die zwei Gitterpunkte verbindet."@de, + "The vector direction inside the lattice that is connecting two lattice points."@en ; + rdfs:subClassOf [ a owl:Class ; owl:intersectionOf ( [ a owl:Restriction ; owl:onProperty ; owl:someValuesFrom ] [ a owl:Restriction ; owl:allValuesFrom ; owl:onProperty ] ) ], + [ a owl:Restriction ; + owl:onDataRange xsd:string ; + owl:onProperty ; + owl:qualifiedCardinality "1"^^xsd:nonNegativeInteger ], , .