OREM, UT, USA, May 26, 2025 — Coreform, a leader in next-generation simulation technologies, is excited to announce that the Coreform Flex and Coreform Cubit 2025.3 are now available. Coreform Flex shows major robustness improvements and new public verification and reference manuals. Coreform Cubit includes bug fixes and small enhancements.
Coreform Flex trimming robustness updates in 2025.3
This release features significant robustness improvements to the Coreform Flex trimming algorithm. Tet meshing is the incumbent fully-automatic meshing solution for complex geometries, but is still dependent on CAD characteristics allowing for the building of a valid surface mesh. The reality is that modern CAD often includes bad surfaces that cause a tri-mesh to fail. Coreform’s next-gen IGA trimming process is robust over many of these issues.
Internal testing on a repository of over 2000 customer parts was benchmarked against the tet meshing capabilities in Coreform Cubit and Flex trimming was found to be more robust than the tet mesher.
Complete release notes are available here.
Other Coreform Flex updates
Neo-Hookean elasticity
Coreform has implemented a two-parameter, isotropic hyper-elastic neo-Hookean material that converges to the linear elastic model in the small deformation limit.
Mechanical contact
One of the promises of next-generation IGA has been that higher-order smooth bases could be more robust for challenging contact problems than traditional linear bases. The reality is that implementation of contact with these bases is highly complex and demanding. In this release, Coreform has an initial implementation of mechanical contact that works for both body-fitted and immersed flex approaches. This is the initial capability, and increased robustness and performance are being worked on.
Mooney-Rivlin elasticity
We have implemented the three-parameter isotropic hyperelastic Mooney-Rivlin material model. This also includes an extension of this model for nearly incompressible solids is available via a pressure stabilization approach. More information can be found in our reference manual.
Neo-Hookean isotropic plasticity
This material model combines the neo-Hookean elasticity material model with a nonlinear isotropic rate-independent plasticity model based on J2 flow theory.
Improved boundary condition workflow
Coreform Flex weakly enforces Dirischlet boundary conditions such as displacements. This eliminates the interdependence of boundary conditions, CAD, and mesh, but does require some parameters to be selected. In this release we have implemented automatic physics-based parameter selection that further simplifies the workflow.
Nonlinear continuation solver
This release adds an implicit static timestepping method based on numerical continuation that breaks a difficult nonlinear problem into a sequence of simpler nonlinear problems. This improves the ability to converge to difficult nonlinear problems.
Coreform Cubit 2025.3 updates
Coreform Cubit updates include bug fixes and minor enhancements. Full release notes are available here.
About Coreform LLC
Coreform develops next-generation computer-aided engineering software. Coreform’s founders are authorities in isogeometric analysis and are widely cited researchers. The Coreform IGA solver is based on smooth CAD spline geometry, offering greater accuracy than the faceted meshes used in legacy CAE software. Coreform is also the exclusive commercial distributor of the Cubit meshing software. Coreform was founded in 2014 and is headquartered in Utah, USA. For more information, visit https://coreform.com.
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