Efficiently create models of formed components using CATIA quick formability feature to initialize shell section thickness
Create high fidelity FE models including triangle/tet meshes with improved meshing capabilities by adding the mesh type as a user parameter
Simulate aging of battery electrodes with additional material parameters defining aging properties of materials
Simulate ultra-performant products with new-generation multi-scale materials and manufacturing methods
Extend the applicability of line fastener constructs by adding new wedge element options
Build large assemblies of symmetric components efficiently with the ability to mirror a half symmetry FEM including connections
Enhance dynamic explicit procedure accuracy involving contact with the support of precise contact through geometry based corrections
Enhance accuracy of structural simulations by including manufacturing effects with initial hardening conditions
Create high fidelity FE models including triangle/tet meshes with improved meshing and remeshing capabilities by adding the mesh type as a user parameter (Default, Auto, Map)
Easily produce high quality surface and volume mesh connections with the new functionality to merge nodes between a 2D and 3D mesh and to make the condensation persistent Simulate ultra-performant products with new-generation multi-scale materials and manufacturing methods with a new FE-RVE modeling capability for simulating complex material micro-structures in representative volume elements Efficiently create models of formed components using CATIA quick formability feature as initialization for shell sections thickness definition
Build large assemblies of symmetric components efficiently with the ability to mirror a half symmetry FEM including connections Simulate aging of battery electrodes with additional material parameters defining aging properties of materials Significantly decrease calibration time for complex material models using a new AI/ML surrogate model capability in the Material Calibration app Enhance accuracy of structural simulations by including manufacturing effects with initial hardening conditions Enhance dynamic explicit procedure accuracy involving contact with the support of precise contact through geometry based corrections