![]() ![]() The layered material functionality is included in the AC/DC Module and the Structural Mechanics Module, making it possible to include multiphysics couplings like electromagnetic heating or thermal expansion on layered materials. You can visualize the results in thin, layered structures as if they were originally modeled as 3D solids. The layered material technology includes preprocessing tools for detailed layered material definition, load/save of layered structure configurations from/to a file, and layer preview features. ![]() ![]() Finally, the general model provides a highly accurate and universal model, as it embeds the complete heat equations. Conversely, the thermally thick layer model can represent poorly conducting materials that act as a thermal resistance in the shell's perpendicular direction this model computes the temperature difference between the two layer sides. This functionality is available for thin layers, shells, thin films, and fractures.įor individual layers, the thermally thin layer model is used for highly conductive materials with heat transfer tangential to the layer and negligible temperature difference on either side of the layer. For heat transfer in thin layers, the Heat Transfer Module provides individual layer models and layered material technology, to investigate heat transfer in layers that are geometrically much smaller than the rest of a model.
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