Fengyx's repositories
ABAQUS-Random-MPC
ABAQUS下随机图形的生成及多点约束
Abaqus-Voronoi-cell-FEM
A python script to generate code that creates a Voronoi cell FEM for Abaqus CAE
Abaqus_Python
Source code in Python for secondary development in Abaqus
abaqus_python_batch
Python scripts for the Abaqus FEA Python interpreter that allows for robust, flexible batch processing of output (.odb) files.
Abaqus_scripts-1
Python scripts to preprocess, run and postprocess Abaqus simulation
Amadeus
A side project that aims to replicate the Amadeus App shown in Steins;Gate 0.
awesome-CAE
A curated list of awesome CAE frameworks, libraries and software.
blog-notebooks
A collection of code (mostly Jupyter notebooks) associated with entries on my blog
Coupling_ABAQUS_MATLAB
we introduce a new framework for running the finite element (FE) packages inside an online Loop together with MATLAB. Contrary to the Hardware-in-the-Loop techniques (HiL), in the proposed Software-in-the-Loop framework (SiL), the FE package represents a simulation platform replicating the real system which can be out of access due to several strategic reasons, e.g., costs and accessibility. Practically, SiL for sophisticated structural design and multi-physical simulations provides a platform for preliminary tests before prototyping and mass production. This feature may reduce the new product’s costs significantly and may add several flexibilities in implementing different instruments with the goal of shortlisting the most cost-effective ones before moving to real-time experiments for the civil and mechanical systems. The proposed SiL interconnection is not limited to ABAQUS as long as the host FE package is capable of executing user-defined commands in FORTRAN language. The focal point of this research is on using the compiled FORTRAN subroutine as a messenger between ABAQUS/CAE kernel and MATLAB Engine. In order to show the generality of the proposed scheme, the limitations of the available SiL schemes in the literature are addressed in this paper. Additionally, all technical details for establishing the connection between FEM and MATLAB are provided for the interested reader. Finally, two numerical sub-problems are defined for offline and online post-processing, i.e., offline optimization and closed-loop system performance analysis in control theory. Keywords: software-in-the-loop; finite element; optimal placement; structural optimization; vibration control.
dem_hyperelasticity
A method based on a feed forward neural network to solve partial differential equations in nonlinear elasticity at finite strain based on the idea of minimum potential energy. The method is named "Deep Energy Method".
F3DAM
Framework for Data-Driven Design and Analysis of Materials
F3DAS
Framework for Data-Driven Design and Analysis of Structures (F3DAS)
FEPX
Finite Element Polycrystal Plasticity
go-common
哔哩哔哩 bilibili 网站后台工程 源码
hyplas
Finite element method software
multiscale-homogenization
Computational Homogenization calculation in macroscopic and microscopic structurures. The microscopic BVPs are solved by FFT method. The macroscopic BVPs are solved by FEM method (we use PyFEM framework based on the book Nonlinear Finite Element Analysis of Solids and Structures of Rene' de Borst et. al.)
Multiscale-Modeling
Multiscale Modeling
neper
Polycrystal generation and meshing
Neper2Abaqus
Use Neper to create an input file and update it to include materials and sections for each generated grain
packing-generation
Hard-sphere packing generation with the Lubachevsky–Stillinger, Jodrey–Tory, and force-biased algorithms and packing post-processing.
PrepAbaqus
A preprocessor for finite element analysis using Matlab, which imports model information from Abaqus *.inp files.
Self-consistent-analysis-code
A full example to conduct self-consistent-analysis
sfepy
Main SfePy repository
tensorflow-windows-wheel
Tensorflow prebuilt binary for Windows
youtube
Download Youtube Video in Golang