https://github.com/adtzlr/adtzlr
Science Score: 26.0%
This score indicates how likely this project is to be science-related based on various indicators:
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○CITATION.cff file
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✓codemeta.json file
Found codemeta.json file -
✓.zenodo.json file
Found .zenodo.json file -
○DOI references
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○Academic publication links
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○Academic email domains
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○Institutional organization owner
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○JOSS paper metadata
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○Scientific vocabulary similarity
Low similarity (12.6%) to scientific vocabulary
Repository
Basic Info
- Host: GitHub
- Owner: adtzlr
- Default Branch: main
- Size: 58.6 KB
Statistics
- Stars: 0
- Watchers: 2
- Forks: 0
- Open Issues: 0
- Releases: 0
Metadata Files
README.md
Hi there 🖐️,
this is Andreas, a mechanical engineer graduated from Graz University of Technology, based in 🏰⛰️ Graz, Austria 🇦🇹. In my free time, I like running 🏃, skiing ⛷️ and snowboarding 🏂 while I also enjoy family times at home 👨👩👧👦.
Currently, I'm an engineer in industry (during the day) and a PhD student at Graz University of Technology at the Institute of Structural Durability and Railway Technology (well, at night... 📚 🕯️). All the tools related to my scientific work are available here on my GitHub profile.
I'm the author of 🔍 FElupe, an open-source finite element analysis package focusing on the formulation and numerical solution of nonlinear problems in continuum mechanics of solid bodies. Most of the open source finite element packages I found are either super-difficult to install, needs to be compiled or are great but slow (or at least too slow for my needs).
With FElupe, I try to fill a gap in between.
I'm convinced that static input files 🖨️ which are passed to a standalone fea solver 🖩 are a thing of the last decades 💾. Instead, scripts are input files: easy to adopt scripts with access to third-party libraries 🛒, written in common scripting languages are the way to go. With common languages I mean something easy-to-learn for engineers, like Python, Matlab/Octave or Julia, not another proprietary simulation file format. FElupe is just another one of many open-source finite element analysis packages using this approach. Well defined and public available scripting interfaces hopefully accelerate the introduction of flexible natural language-processing for simulations.
Projects
- 🔧 Mechanics: felupe, hyperelastic, matadi, trusspy, contique, cubrium, fiberreinforcedrubber
- 🔢 Math: tensortrax, ttb, neinsum
Code Snippets
- 1D Finite Element Analysis in 100 Lines of Python Code
- 1D Finite Element Analysis in 100 Lines of Python Code (with named tuple instead of SimpleNamespace)
- 3D Finite Element Analysis in 100 Lines of Python Code
- 3D Finite Element Analysis in 100 Lines of Python Code (Alternative Assembly)
- 3D Hyperelastic Finite Element Analysis in 140 Lines of Python Code
Owner
- Name: Andreas Dutzler
- Login: adtzlr
- Kind: user
- Location: Graz, Austria
- Company: Graz University of Technology
- Repositories: 28
- Profile: https://github.com/adtzlr
PhD Candidate in Mechanical Engineering @ TU Graz. Development Engineer in the Railway Industry. Opinions related to this account are my own.
GitHub Events
Total
- Push event: 3
Last Year
- Push event: 3
Issues and Pull Requests
Last synced: about 1 year ago
All Time
- Total issues: 0
- Total pull requests: 0
- Average time to close issues: N/A
- Average time to close pull requests: N/A
- Total issue authors: 0
- Total pull request authors: 0
- Average comments per issue: 0
- Average comments per pull request: 0
- Merged pull requests: 0
- Bot issues: 0
- Bot pull requests: 0
Past Year
- Issues: 0
- Pull requests: 0
- Average time to close issues: N/A
- Average time to close pull requests: N/A
- Issue authors: 0
- Pull request authors: 0
- Average comments per issue: 0
- Average comments per pull request: 0
- Merged pull requests: 0
- Bot issues: 0
- Bot pull requests: 0