-
Notifications
You must be signed in to change notification settings - Fork 4
Commit
This commit does not belong to any branch on this repository, and may belong to a fork outside of the repository.
Showing
13 changed files
with
33 additions
and
33 deletions.
There are no files selected for viewing
File renamed without changes.
File renamed without changes.
File renamed without changes.
32 changes: 16 additions & 16 deletions
32
electrical-resistivity/README.md → electrical-resistivity/Introduction.md
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
Original file line number | Diff line number | Diff line change |
---|---|---|
@@ -1,16 +1,16 @@ | ||
# Electrical Resistivity ER | ||
|
||
Electrical resistivity is used to determine reinforced concrete’s susceptibility to corrosion and regions susceptible to moisture and chloride penetration. | ||
|
||
Additional information about Electrical Resistivity can be found [`here`](https://infotechnology.fhwa.dot.gov/wp-content/themes/nde/inc/mpdf-development/Generatedpdfs/ElectricalResistivityER.pdf). | ||
|
||
## Installation | ||
|
||
Inorder to run all of the algorithms developed for Electrical Resistivity, [`charisma-env`](https://github.com/TFHRCFASTNDElab/CHARISMA/blob/main/environment) environment is required. | ||
|
||
We strongly recommend installing [`charisma-env`](https://github.com/TFHRCFASTNDElab/CHARISMA/blob/main/environment) via conda. | ||
|
||
|
||
## ER Mapping | ||
|
||
[`ERMapping`](https://github.com/TFHRCFASTNDElab/CHARISMA/tree/main/electrical-resistivity/ERMapping) is the conventional form of ER data analysis in which we create condition maps by mapping the resistivity value to the location of ER test point on the specimen. | ||
# Electrical Resistivity ER | ||
|
||
Electrical resistivity is used to determine reinforced concrete’s susceptibility to corrosion and regions susceptible to moisture and chloride penetration. | ||
|
||
Additional information about Electrical Resistivity can be found [`here`](https://infotechnology.fhwa.dot.gov/wp-content/themes/nde/inc/mpdf-development/Generatedpdfs/ElectricalResistivityER.pdf). | ||
|
||
## Installation | ||
|
||
Inorder to run all of the algorithms developed for Electrical Resistivity, [`charisma-env`](https://github.com/TFHRCFASTNDElab/CHARISMA/blob/main/environment) environment is required. | ||
|
||
We strongly recommend installing [`charisma-env`](https://github.com/TFHRCFASTNDElab/CHARISMA/blob/main/environment) via conda. | ||
|
||
|
||
## ER Mapping | ||
|
||
[`ERMapping`](https://github.com/TFHRCFASTNDElab/CHARISMA/tree/main/electrical-resistivity/ERMapping) is the conventional form of ER data analysis in which we create condition maps by mapping the resistivity value to the location of ER test point on the specimen. |
File renamed without changes.
File renamed without changes.
File renamed without changes.
File renamed without changes.
File renamed without changes.
File renamed without changes.
34 changes: 17 additions & 17 deletions
34
half-cell-potential/README.md → half-cell-potential/Introduction.md
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
Original file line number | Diff line number | Diff line change |
---|---|---|
@@ -1,17 +1,17 @@ | ||
# Half Cell Potential HCP | ||
|
||
The Half Cell Potential (HCP) method can be used to identify corrosion activity of steel reinforcement in reinforced concrete structures. However, the method cannot directly measure the degree of corrosion. | ||
|
||
|
||
Additional information about Half Cell Potential can be found [`here`](https://infotechnology.fhwa.dot.gov/wp-content/themes/nde/inc/mpdf-development/Generatedpdfs/Half-CellPotentialHCP.pdf). | ||
|
||
## Installation | ||
|
||
Inorder to run all of the algorithms developed for Half Cell Potential, [`charisma-env`](https://github.com/TFHRCFASTNDElab/CHARISMA/blob/main/environment) environment is required. | ||
|
||
We strongly recommend installing [`charisma-env`](https://github.com/TFHRCFASTNDElab/CHARISMA/blob/main/environment) via conda. | ||
|
||
|
||
## HCP Mapping | ||
|
||
[`HCPMapping`](https://github.com/TFHRCFASTNDElab/CHARISMA/tree/main/half-cell-potential/HCPMapping) is the conventional form of HCP data analysis in which we create condition maps by mapping the HCP measurement to the location of HCP test point on the specimen. | ||
# Half Cell Potential HCP | ||
|
||
The Half Cell Potential (HCP) method can be used to identify corrosion activity of steel reinforcement in reinforced concrete structures. However, the method cannot directly measure the degree of corrosion. | ||
|
||
|
||
Additional information about Half Cell Potential can be found [`here`](https://infotechnology.fhwa.dot.gov/wp-content/themes/nde/inc/mpdf-development/Generatedpdfs/Half-CellPotentialHCP.pdf). | ||
|
||
## Installation | ||
|
||
Inorder to run all of the algorithms developed for Half Cell Potential, [`charisma-env`](https://github.com/TFHRCFASTNDElab/CHARISMA/blob/main/environment) environment is required. | ||
|
||
We strongly recommend installing [`charisma-env`](https://github.com/TFHRCFASTNDElab/CHARISMA/blob/main/environment) via conda. | ||
|
||
|
||
## HCP Mapping | ||
|
||
[`HCPMapping`](https://github.com/TFHRCFASTNDElab/CHARISMA/tree/main/half-cell-potential/HCPMapping) is the conventional form of HCP data analysis in which we create condition maps by mapping the HCP measurement to the location of HCP test point on the specimen. |
File renamed without changes.
File renamed without changes.