Crystal plasticity for additive manufacturing

An Open-Source Framework for Advanced Phase-Field Simulations

FEniCSx implementation for phase-field fracture modeling in elastic brittle materials. Includes finite element method (FEM) examples for computational mechanics, simulating crack nucleation and propagation in boundary value problems (e.g., Brazilian, poker-chip, and indentation tests).

A C++ Finite Element Analysis software based on the Jem-Jive library

Theory and subroutine about PFM

Benchmark repository for elastic brittle fracture: “Nine circles” challenge problems to assess and validate fracture models. Provides FEniCSx finite element (FEM) codes plus mesh files and mesh-generation scripts for quasi-static crack nucleation and propagation (Mode I/III), including torsion and trousers examples.

Companion repository for the short course “The Phase-Field Approach to Brittle Fracture: Theory and Numerical Implementation” (USNCCM). Contains step-by-step FEniCSx Jupyter notebooks (AT1 and phase-field implementations) for single-edge-notch fracture simulations, plus installation guides and Google Colab-friendly workflows.

A high-performance Finite Element framework for Phase-Field Fracture Mechanics (PFM) in heterogeneous materials. Simulates complex crack-inclusion interactions in aluminum-infiltrated steel matrices using deal.II, MPI, and Adaptive Mesh Refinement (AMR).

Phase-field fracture modeling of nacre (mother-of-pearl) using dual damage fields for asymmetric mechanical strength analysis. Julia implementation with periodic boundary conditions, automatic differentiation, KKT damage irreversibility, AT1/AT2 formulations, and multiscale homogenization.

A simple implementation of phase field fracture in FEniCS.