There are 2 repositories under composites topic.
Composite laminates engineering simulations in Python.
UMAT subroutines (for FEA code Abaqus) to model progressive damage/failure in FRP composites
Finite elements for 3D problems in Python/Cython
Bolted Joint Stress Field Model
This script explicitly includes the parameters such as fiber length, diameter, orientation, distribution, and fiber volume fraction. Straight or curved/wavy fibers with random curvatures can be generated to closely approximate fiber morphology in the matrix.
UMAT for ABAQUS using 3D Hashin Based Orthotropic Damage Model
FeCLAP: A small solver for the Finite element analysis of Composite Laminate Plates with rectangular geometries. This personal project solver supports static, modal, transient and non linear analysis using a perfectly plastic model.
Processes C-scans, calculates time-of-flight, identifies contours of damaged regions, and creates a 3D reconstruction of the damage state
A Tsai-Wu based 2D Damage Model UMAT for ABAQUS (discontinued)
Stiffened Plate Analysis and Design (SPAD)
An algorithmic framework to predict properties of composites to aid in meta-modelling process.
Routines for optimization of composite (e.g. carbon) sandwich based on classical lamination theory
A Hashin 2D Damage Model UMAT for ABAQUS (discontinued)
Simple desktop application for normalization of tensile/compression test data of fiber reinforced composites
A parametric study into the influence of current, frequency, and conductivity on the power dissipated during induction heating.
Failure criteria for composites considering fiber and matrix.
Some interesting numbers to lookup in factordb
Python scripting in Salome allows us to automatically generate random particles or pores. With subsequent operations we are able to build composite or porous bodies for study in Code_Aster.
ANN functions to calculate some mechanical properties of unidirectional composites
UMAT for ABAQUS using Mazars Concrete Damage Model with Fracture Energy Regularization
Create an iterator which generates a sequence of composite numbers.
Multi-scale model of E. coli chemotaxis
This repository contains a subroutine for an ANSYS Mechanical APDL cohesive element for the modelling of multiple delamination quasi-static and fatigue onset/initiation and propagation. The subroutine also calculates the J-integral in the cohesive zone. Test cases are also included showcasing these capabilities.