An Optimized, Easy-to-use, Open-source GPU Solver for Large-scale Inverse Homogenization Problems

Litz Wire Homogenization with COMSOL and MATLAB

Spectral orientation fabric model for polycrystalline materials

FANS: an open-source, efficient, and parallel FFT-based homogenization solver designed to solve microscale multiphysics problems.

Multiscale modeling of inelastic materials with Thermodynamics-based Artificial Neural Networks (TANN)

ANSYS-SwiftComp GUI is a graphic user interface integrated into the Main Menu of ANSYS using APDL, which can use the preprocessing and postprocessing capability of ANSYS as a user-friendly GUI for SwiftComp™

This is a MATLAB code for three stage full-field self-consistent clustering analysis (SCA) for 3D woven composite RUC

ANSYS Workbench extension for multiscale modeling of composite materials using SwiftComp. Provides seamless integration of homogenization, dehomogenization, and failure analysis. Features intuitive GUI for beam, plate, and solid models with built-in visualization tools.

3D full-field mechanical homogenization fenics code: finite strains and mixed stress controlled

3D full-field magnetomechanical homogenization fenics code: finite strains, viscosity, incompressibility and mixed stress/flux controlled

BCC unit cell with structured mesh in ABAQUS

Bauer, J. K., & Böhlke, T. (2022). On the dependence of orientation averaging mean field homogenization on planar fourth-order fiber orientation tensors. Mechanics of Materials, 104307.

Ansys Mechanical APDL files for mesh generation and simulation of carbon reinforced composites

RVEs: Automating the generation of representative volume elements containing multiple inclusion objects

Periodic Mesh Generation of BCC Lattice Materials using SALOME for FEM Analysis

Homogenization procedure for meteorological timeseries according to González-Rouco

Elasticity simulation; input structure, output Young's modulus

Several simulation analysis are introduced aimed at the numerical homogenization of trabecular bone tissue

A Deep Learning Model For Homogenization of Two-Phase High-Contrast Three-dimensional Materials

Surrogates for microstructure property linkages that inherently fulfill the Voigt-Reuss bounds.