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The thermal evolution of welding two plates with a V-seam is simulated in Code_Aster

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emefff/Thermal-Evolution-In-Welding-In-Code-Aster

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Salome-Meca and Code_Aster are very powerful tools in general thermo-mechanical engineering and simulation. However, some problems need a deeper dive into the guts of Code_Aster. This is one of those problems. The basic idea is to simulate the thermal evolution of welding two plates with thickness 100, weld length is 100mm. The V-shaped weld is pre-designed as single body with 50 3D-zones. We need them for 'moving' the heat source in every step. So basically, the moving heat source is equal to one such zone. Together with the heated zone, we also change its material properties from essentially heat conductivity = 0 to a certain value. This is very important as you also see in the result: as we do not have any material in a real weld before the welding zone, it cannot have any heat conductivity (in real life it's air, but we are not interested in the air getting heated). Together with the changing material we also 'attach' this 'new' material to both of the plates in the for loop. You'll may also notice, we have a lot of material data in the Code_Aster command file. These data are generated with the two Python scripts. Because we are lazy and make mistakes, we do not want to type hundreds of values. We just generate two .csv-files we import in Salome-Meca during the first setup of the command file. If you are using Salome-Meca, this command file can be imported into the GUI, but you'll have to set up all the files to import for yourself (the mesh and the results.rmed for the results). An intermediate result may look like this:

Bildschirmfoto vom 2024-04-05 12-05-59

The moment in time is just before the end of the simulation. The heat wave travelling before the heated weld zone already heats up the end of the two plates. In the attached video, you'll see the moving heat source more clearly. There is a special command in Code_Aster for a moving heat source also, but it is VERY difficult to use. Our approach has its limitations but for the moment it works fine. Especially results away from the heat source are absolutely fine.

emefff@gmx.at

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