CALFEM - a finite element toolbox for MATLAB
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Updated
Jan 9, 2023 - MATLAB
The finite element method (FEM) is a numerical method for solving problems of engineering and mathematical physics. Typical problem areas of interest include structural analysis, heat transfer, fluid flow, mass transport, and electromagnetic potential.
CALFEM - a finite element toolbox for MATLAB
Efficient Matlab Implementation of Adaptive Mesh Refinement in 2D
SOROTOKI is an open-source MATLAB package that includes an array of tools for design, modeling, and control of soft robotic systems 🐙 🤖
Interface for using finite elements in inverse problems with complex domains
Solve the 1D forced Burgers equation with high order finite elements and finite difference schemes.
AMORe-CMS (Automatic Model Order Reduction using Component Mode Syntesis) is MATLAB software that automatically performs physics-based model order reduction using component mode synthesis (CMS) on structural FE models made in COMSOL Multiphysics.
A Matlab program which solves a static nonlinear FEM problem with linear shape functions, for an ideal elastic-plastic material
Efficient Matlab Implementation of Adaptive Mesh Coarsening in 2D
A MATLAB toolbox for functionally graded lattice generation, in different configurations.
A simple extension for the nodal-dg code by Jan S. Hesthaven and Tim Warburton
A finite element program for solving 3D-Structure comprising of Beams
Truss System solver
Richards equation on porous media
Complete FEM implementation for 2D elasticity problems with truss, triangular and quadrilateral elements
Calculating internal forces (M, N, T) and reactions of supports in the bridge structure using spring and plane frame elements.
1D and 2D Finite Element Analysis for predefined objects
A 1D finite element model built in MATLAB for ME 499-005 at George Mason University, Spring 2017.
Code for "Numerical methods for the 2nd moment of stochastic ODEs" (https://arxiv.org/abs/1611.02164)