Features added under Deformed Geometry control the material frame. They can be used to study both stationary states and time-dependent deformations where the geometry changes its shape due to addition or removal of material, whether this happens due to a physical process, or for example as part of shape optimization. The same feature types are also available as
Moving Mesh Features under
Moving Mesh but there control the spatial frame. For a comparison of moving meshes and deformed geometries, see
Deformed Geometry vs. Moving Mesh.
Features added under Deformed Geometry define a deformation of the material frame relative to the geometry frame, and therefore potentially apply to all physics in the model. They can be used to study how physics changes when the geometry, represented by the mesh, changes due to an externally imposed geometry change. In a dynamic simulation, deformed geometry features model a deformation that represents removal or addition of material. The same feature types are also available as
Moving Mesh Features under
Moving Mesh but there control the spatial frame. For a comparison of moving meshes and deformed geometries, see
Deformed Geometry vs. Moving Mesh.
Technically, the Deformed Geometry branch represents the material frame in the
Model Builder tree. Its
Equation View subnode displays all contributions to the material frame deformation, for example the mesh smoothing equations used by a Deforming Domain feature, or the boundary motion prescribed by a Polynomial Boundary feature used in shape optimization. Also, when enabling
Modify model configuration for study step in a Study Step node, you can use the
Deformed Geometry branch to control the overall behavior of Deformed Geometry features: whether they should control the material frame, and whether smoothing equations should be solved for.
The Deformed Geometry menu that you find when right-clicking a
Definitions node includes these domain and boundary nodes, which are identical to their Moving Mesh counterparts: