![]() Layered materials defined in this way can be combined to create new layered materials. Using the new Layered Material node, it is possible to define a layup where each layer has its own material data, thickness, and principal orientation. ![]() Similarly, you can combine the Composite Materials Module with the AC/DC Module for layered materials functionality within the Electrostatics and Electric Currents interfaces. By combining the Composite Materials Module with the Heat Transfer Module, you get more sophisticated heat transfer and thermal expansion functionality. This module is useful for structural analysis of composite laminates, and can be coupled to the Heat Transfer Module and the AC/DC Module for multiphysics analysis of composite materials. The user interface includes tools for specifying isotropic and anisotropic material properties in layered materials together with dedicated visualization tools used to display the layers graphically. The former is implemented in a material model in the existing Shell interface, whereas the latter forms the basis for the new Layered Shell interface. There are two different formulations for layered shells: one that is based on a classical laminate theory and another that is based on a more complete 3D theory. This add-on to the Structural Mechanics Module allows you to model laminates and layered materials, with new Layered Material technology. ![]() COMSOL Multiphysics ® version 5.4 introduces the new Composite Materials Module. ![]()
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