This webpage provides basic examples on computational methods to solve fracture mechanics problems using DOLFINx.
This work includes the contribution of the Early Stage Researchers (ESR) of the ITN project Newfrac funded by the European Commission under a Marie Skłodowska-Curie Actions Grant Agreement n. 861061.
The webpage is build using Jupyter-book, reusing the configuration of the Dolfinx Tutorial.
Comments and corrections to this webpage should be submitted to the issue tracker by going to the relevant page, then click the -symbol in the top right corner and "open issue".
If you find the material of this repository useful, please cite it in your publications using the following reference:
Chao Correas, A., Jack S. Hale, Jiménez Alfaro, S., Andrey Latyshev, & Maurini, C. (2024). newfrac/fenicsx-fracture: v1.0 (v1.0). Zenodo. https://doi.org/10.5281/zenodo.11518791
To run this notebooks on your computer, we suggest using Docker or Conda, as exaplained below.
First, install docker for your operating system. You can find instructions here: https://docs.docker.com/get-docker/
Download and unzip the present repository. If you have git installed, you can clone the repository with git clone https://github.com/newfrac/fenicsx-fracture.git
.
Otherwise download and unzip the file https://github.com/newfrac/fenicsx-fracture/archive/refs/heads/main.zip
.
To build a docker image for this documentation, you can run from the root of the downloaded repository (use the PowerShell
if you are on Windows)
docker build -t fenicsx-fracture -f docker/Dockerfile .
docker run --rm -ti -v $(pwd):/root/shared -w /root/shared --init -p 8888:8888 fenicsx-fracture
Note: On Windows, you may need to replace $(pwd)$
with ${PWD}
or %cd%
in the line above, depending on the type of your terminal.
You can then access the jupyter lab notebook opening in your browser one of the links starting with http://...
indicated in the terminal.
Steps 1-3 need to be done only the first time. After, you can then start the container with the command in step 4 directly.
To run the notebooks locally, we recommend to use the conda environment provided in this repository. To install conda, please follow the instructions here.
To create the conda environment and activate it
conda env create -f fenicsx-fracture.yml
conda activate fenicsx-fracture
Although we recommend executing the notebook locally, you can also use the cloud-based binder service to execute the notebooks:
Go to Google Colab and create a new notebook. We will use the FEM on Colab project to install FEniCSx. Copy and paste into a new notebook cell:
try:
import dolfinx
except ImportError:
!wget "https://fem-on-colab.github.io/releases/fenicsx-install-real.sh" -O "/tmp/fenicsx-install.sh" && bash "/tmp/fenicsx-install.sh"
import dolfinx
and press Shift+Enter. You should see output from the install process and no errors.
The funding received from the European Union’s Horizon 2020 research and innovation programme under Marie Skłodowska-Curie grant agreement No. 861061-NEWFRAC is gratefully acknowledged.
This project is created using the open source Jupyter Book project and the book of dolfinx-tutorial as a template.
To generate the book locally:
jupyter-book build .
To visualize the results, open in your browser the generated file _build/html/index.html
.
MIT License, see LICENSE
file.