UGP under Professor Arghya Das
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Updated
May 22, 2024 - Jupyter Notebook
UGP under Professor Arghya Das
Expandable And Scalable Infrastructure for Finite Element Methods, EASIFEM, is [Modern Fortran](https://fortran-lang.org) framework for solving partial differential equations (PDEs) using finite element methods. EASIFEM "eases" the efforts to develop scientific programs in Fortran.
Uintah-MPM repository for Aalto university projects.
Программа для рисования лабораторных механических испытаний грунтов.
🚀 Dive into Flocode's GitHub Codespace! Using NCEES PE Exam questions, our Jupyter notebooks show some basic Python use cases. 📐 Whether for exams or pure curiosity, it's for all engineers. For a deeper dive, visit Flocode.dev 🖥️🔧🐍.
Implementation of explicit Runge-Kutta time-marching schemes for the coupled hydro-mechanical problem.
Implementation of the Strain Path method and Shallow Strain Path method to compute the displacement and strain fields due to the penetration of a tube
Particle size distribution graph plotting (using sieve analysis lab data)
Implementation of soft body interaction models (for multiple particles). Includes applications to (1) soil mechanics, (2) microbiology. Variants of the method: discrete element method, individual based model, molecular dynamics.
Engineering toolkit for ground, foundation, and soil.
Matlab scripts to simulate a soil element using the Modified Cam Clay model, handling both stress increments and strain increments by D-matrices.
Eğik eğilme etkisi altındaki dikdörtgen tekil temellerde taban gerilmelerinin hesabı
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