Keng-Wit Lim's repositories
Amaru.jl
Amaru - Finite element library
AMPLE
AMPLE - A Material Point Learning Environment
c_pfor_am
Crystal plasticity for additive manufacturing
composite_cdm_ap_ply
Continuum damage mechanics framework for AP-PLY composites implemented as an Abaqus VUMAT subroutine.
Elasto-plasticity_modules_Fortran_LS-Dyna
A module containing elasto-plastic material models (Hill-Plasticity) with straightforward extension to various hardening laws.
felupe
Finite Element Analysis
GMatElastoPlasticFiniteStrainSimo
Simo elasto-plastic model
Gradient-enhancement_thermomech_weaklyStaggered_Fortran_LS-Dyna
Repository containing Fortran source code for the implementation of gradient-enhancement by weakly staggered thermomechanical coupling in commerical FEM-Software, exemplary shown for LS-Dyna
kdpcover
LaTeX class rendering a cover for a book published by Kindle Direct Publishing (KDP)
kdtree-cpp
Kd-Tree library for kNN and range queries in plain C++98
Laghost
High-order Lagrangian Hydrodynamics Miniapp
lgrtk
Tool Kit for Lagrangian Grid Reconnection
Localizing-Gradient-Damage-with-UMAT-UMATHT
Simple implementation of localizing gradient damage model in ABAQUS
MaterialModels
User material models for Abaqus (UMAT)
Mazars_UMAT
UMAT for ABAQUS using Mazars Concrete Damage Model with Fracture Energy Regularization
mfem_static_example
Damaged plate static deformation
raccoon
Massively parallel FEM code for phase-field for fracture by Dolbow Lab at Duke University
RMT3D
Modeling 3D fluid-structure interactions with the Reference Map Technique.
StabilizedPhaseFieldFracture
This FEniCS code is associated with a paper titled "Stabilized formulation for phase-field fracture in nearly incompressible hyperelasticity" published in the International Journal for Numerical Methods in Engineering (IJNME). If using or referencing this code, please cite the associated paper.
triangle
Python bindings to the triangle library
UMAT-ABAQUS
A general framework to develop material models (UMAT) in ABAQUS (Dassault Systèmes)
umat_finite_viscoelasticity
User Material Model Implementation (UMAT) based on Finite Viscoelasticity Theory for Hydrogels in Abaqus
UMAT_Lefevre_Sozio_Lopez-Pamies
Abaqus UMAT subroutine for a large family of finite viscoelasticity models
usrmat_LS-Dyna_Fortran
Basics to implement user-defined materials (usrmat, umat) in LS-Dyna with Fortran