raulazo-m's Stars
Naruki-Ichihara/fenics_optimize
optfx is a module of the FEniCS computing platform for multiphysics optimization problems.
aflahelouneg/inverse_identification_soft_tissue
raulazo-m/Anisotropic-viscoelasticity
Numerical model in FEniCS and FEniCSx for matrix-fiber composite materials. Details of the model in Liu et al. (2019).
michalhabera/dolfiny
Dolfin-y, high level wrappers for dolfin-x, the FEniCS library
danielwilczak101/EasyGA
EasyGA is a python package designed to provide an easy-to-use Genetic Algorithm. The package is designed to work right out of the box, while also allowing the user to customize features as they see fit.
Naereen/notebooks
:notebook: A growing collection of Jupyter Notebooks written in Python, OCaml and Julia for science examples, algorithms, visualizations etc
thelfer/MFrontGenericInterfaceSupport
This project aims at providing support for MFront generic behaviours. This project can be embedded in open-source and propriary sofware
ryanhaagenson/Generalized_Poroelastic_Model_FEniCS
The model code for the poroelastic model assocaited with the article title "A generalized poroelastic model using FEniCS with insights into the Noordbergum effect" by Haagenson et al. published in Computers & Geosciences.
marcomusy/vedo
A python module for scientific analysis of 3D data based on VTK and Numpy
compmec/hyper
Solve static non-linear mechanics problems using Finite Elements Method for hyperelastic materials
frank1789/AnsysHomerwork
Exercise develop during the course "Mechanical design and machine elements"
lmps-0/FEM_Ansys_APDL
Numerical Simulations via Finite Elements of the Hole drilling Method for Measuring Residual Stress
Yongseok7717/Visco_Frac_CG
We solve fractional order viscoelasticity problem by finite element methods. For time discretisation, we employ the Crank-Nicolson type finite difference scheme as well as linear interpolation for fractional-order time integral.
FranckLab/FIDVC
Fast Iterative Digital Volume Correlation Algorithm