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Zenodo
2025
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| Dostęp online: | https://doi.org/10.5281/zenodo.14228043 |
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| author | Department of Civil and Mechanical Engineering |
| author_facet | Department of Civil and Mechanical Engineering |
| contents | <p>This is the data set containing the X-CT scan of fiber UD650. The Python script UD_TURB0_CST2025.ipynb contains the segmentation process and prepares for creating a finite element (FE) mesh. </p> <p>The zip file of DREAM3D contains the installation file. One needs to install it into the WSL-Linux environment to execute the latter part of permeability extraction linked to the GitHub repository PermXCT <a title="PermXCT" href="https://github.com/debampl/PermXCT.git">https://github.com/debampl/PermXCT.git</a>.</p> <p>The zip file dxchange contains the Python module to load the .txm scan data into the Python notebook for further processing. One needs to install dxchnage in the present Python environment. It may ask to install the olefile to run the "UD_TURB0_CST2025.ipynb" notebook.</p> <p>The FE mesh is created from voxel-based information from the XCT scan using the REAM3D pipeline.</p> <p> </p> <p>A comprehensive development and validation of the model are presented in the following paper:</p> <p>Software development:<br>Adhikari, Debabrata, Jesper John Lisegaard, Jesper Henri Hattel, and Sankhya Mohanty. "PermXCT: A novel framework for imaging-based virtual permeability prediction." <em>SoftwareX</em> 33 (2026): 102529.</p> <p>Research interest and application:<br>Adhikari, Debabrata, Jesper John Lisegaard, Robert S. Pierce, Lars Pilgaard Mikkelsen, Jesper Henri Hattel, and Sankhya Mohanty. "Meso-scale permeability prediction from the multi-block 3D reconstruction of fiber reinforced polymer composite with experimental validation." <em>Composites Science and Technology</em> (2025): 111290.</p> <p> </p> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_5281_zenodo_14228043 |
| institution | Zenodo |
| language | |
| publishDate | 2025 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | X-ray Computed Tomography data set of UD 650 glass fiber composite Department of Civil and Mechanical Engineering X-Ray Microtomography Composites Fibers <p>This is the data set containing the X-CT scan of fiber UD650. The Python script UD_TURB0_CST2025.ipynb contains the segmentation process and prepares for creating a finite element (FE) mesh. </p> <p>The zip file of DREAM3D contains the installation file. One needs to install it into the WSL-Linux environment to execute the latter part of permeability extraction linked to the GitHub repository PermXCT <a title="PermXCT" href="https://github.com/debampl/PermXCT.git">https://github.com/debampl/PermXCT.git</a>.</p> <p>The zip file dxchange contains the Python module to load the .txm scan data into the Python notebook for further processing. One needs to install dxchnage in the present Python environment. It may ask to install the olefile to run the "UD_TURB0_CST2025.ipynb" notebook.</p> <p>The FE mesh is created from voxel-based information from the XCT scan using the REAM3D pipeline.</p> <p> </p> <p>A comprehensive development and validation of the model are presented in the following paper:</p> <p>Software development:<br>Adhikari, Debabrata, Jesper John Lisegaard, Jesper Henri Hattel, and Sankhya Mohanty. "PermXCT: A novel framework for imaging-based virtual permeability prediction." <em>SoftwareX</em> 33 (2026): 102529.</p> <p>Research interest and application:<br>Adhikari, Debabrata, Jesper John Lisegaard, Robert S. Pierce, Lars Pilgaard Mikkelsen, Jesper Henri Hattel, and Sankhya Mohanty. "Meso-scale permeability prediction from the multi-block 3D reconstruction of fiber reinforced polymer composite with experimental validation." <em>Composites Science and Technology</em> (2025): 111290.</p> <p> </p> |
| title | X-ray Computed Tomography data set of UD 650 glass fiber composite |
| topic | X-Ray Microtomography Composites Fibers |
| url | https://doi.org/10.5281/zenodo.14228043 |