Projects in Awesome Lists tagged with umat
A curated list of projects in awesome lists tagged with umat .
https://github.com/adtzlr/ttb
Tensor Toolbox for Modern Fortran
abaqus ansys fem finite-element-analysis fortran hypela2 hyperelasticity ls-dyna marc tensor tensor-toolbox toolbox umat
Last synced: 26 Jan 2026
https://github.com/adtzlr/felupe
:mag: finite element analysis for continuum mechanics of solid bodies
3d fea fem finite-element-analysis finite-element-methods finite-elements hyperelasticity jax partial-differential-equations pde python scientific-computing solid-mechanics solid-mechanics-codes umat
Last synced: 13 Apr 2025
https://github.com/jfriedlein/usrmat_ls-dyna_fortran
Basics to implement user-defined materials (usrmat, umat) in LS-Dyna with Fortran
documentation fortran90 ls-dyna material-model ttb tutorial umat utan
Last synced: 27 Jan 2026
https://github.com/llamm-de/tensor_tools
A modern Fortran library for tensor calculus
abaqus feap fortran modernfortran tensor tensorcalculus umat
Last synced: 17 Jan 2026
https://github.com/caeassistant-group/abaqus-cae-umat-subroutine-for-3d-composite-fatigue-simulation
In this project, we modeled the fatigue behavior of a composite material in 3D space using the UMAT subroutine in Abaqus. The Abaqus .inp file and part of the UMAT subroutine are provided. To access the video tutorial and all the modeling files for this project, click the link below.
abaqus analysis code composite engineering fatigue fortran numerical-methods simulation subroutine umat
Last synced: 04 Feb 2026
https://github.com/jfriedlein/logarithmic_strain_space-fortran
Fortran code for the transformation into the logarithmic strain space
fortran90 logarithmic-strain-space ls-dyna ttb umat utan
Last synced: 03 Mar 2026
https://github.com/caeassistant-group/umat-abaqus-tsai-hill-orthotropic-composite-subroutine
The UMAT subroutine is a tool in Abaqus that can be used when a material cannot be adequately modeled using the Abaqus material library. In this project, we employed this subroutine to evaluate the Tsai-Hill failure criterion in composites. Additional projects in this field can also be accessed on the following link.
3ds abaqus cae finite-element-analysis finite-element-methods fortran numerical-analysis simulation subroutine tsai-hill umat
Last synced: 31 Jan 2026
https://github.com/caeassistant-group/umat-abaqus-isotropic-elasticity-isothermal-suboutine
The UMAT subroutine in Abaqus serves as a solution for modeling materials that cannot be accurately represented using the standard Abaqus material library. For this project, we utilized this subroutine to study a 3D isotropic isothermal beam. Additional projects in this field can also be accessed on the following link.
abaqus abaqus-input-file caeassistant fem finite-element-analysis finite-element-method finite-elements fortran simulation subroutine umat
Last synced: 22 Jan 2026
https://github.com/caeassistant-group/abaqus-vumat-isotropic-elasticity-isothermal-suboutine
The VUMAT subroutine in Abaqus provides an effective approach for simulating materials that are not adequately captured by the standard Abaqus material library. In this study, we applied this subroutine to analyze a 3D isotropic isothermal beam. Further projects related to this domain can be explored at the link provided below.
abaqus abaqus-input-file cae code f90 fem fortran inp simulation subroutine umat vumat
Last synced: 22 Jan 2026
https://github.com/caeassistant-group/viscoelastic-abaqus-model-for-the-analysis-of-composite-curing
This project presents an innovative approach for examining residual stresses in composites: The Abaqus viscoelastic model for curing. The implementation of the model is carried out in Abaqus CAE, utilizing Fortran subroutines such as USDFLD, UMAT, HETVAL, UEXPAN, and DISP.
abaqus cae composite curing f90 fortran frc maxwell prony simulation subroutine umat viscoelastic
Last synced: 31 Mar 2025
https://github.com/caeassistant-group/path-dependent-abaqus-model-for-the-analysis-of-composite-curing
This study introduces a novel method for analyzing residual stresses in composite materials: the Abaqus path-dependent curing model. The model is implemented within Abaqus CAE using Fortran subroutines like USDFLD, UMAT, HETVAL, UEXPAN, and DISP.
abaqus cae composite curing f90 fortran frc path-dependent simulation subroutines umat
Last synced: 31 Mar 2025