2D-Finite Element Analysis with Python
-
Updated
Nov 4, 2023 - Python
2D-Finite Element Analysis with Python
physics-informed neural network for elastodynamics problem
Finite Element Modeling (FEM) Code: Python Tools, Field II Intensity Field Solution, LS-DYNA Pre/Post Processing
Utilities for doing calculations in continuum mechanics.
Semiemperical quasiharmonic thermal elasticity
Bolted Joint Stress Field Model
The autoscaling simulation toolbox provides tools to experiment with policies for multilayered autoscaling (inc. VM clusters and applications). Multiverse simulator is the core of the toolbox. Using it, one can evaluate autoscaling policies under different conditions, including various applications, platforms, and workloads.
A Python package that can verify the necessary and sufficient elastic stability conditions in various crystal systems
Deforming crystal (lagrangian strain) for VASP
Model of thermo-hyperelasticity using Constitutive Artificial Neural Networks
Simulations for snake kinematics with anisotropic friction.
EasyFEA is a user-friendly Python library that simplifies finite element analysis.
Library for finding Lorentzian distributions using machine learning.
A pure python finite element solver based on volmdlr 3D modeler
Implementation of a generalised von Kármán model for multilayered plates
Bauer, J. K., & Böhlke, T. (2022). On the dependence of orientation averaging mean field homogenization on planar fourth-order fiber orientation tensors. Mechanics of Materials, 104307.
Supporting classes in Python for easily scaling Kubernetes clusters (under development)
Source code for the project "Achieving Automated Elasticity in MongoDB Document-Store Clusters"
Add a description, image, and links to the elasticity topic page so that developers can more easily learn about it.
To associate your repository with the elasticity topic, visit your repo's landing page and select "manage topics."