micro-XRCT datasets of stochastically reconstructed 3D porous media micromodels manufactured by additive manufacturing

DOI

This dataset contains micro X-ray Computed Tomography (micro-XRCT) scan data sets (projection, reconstructed, and binarized images) of 3D porous media micromodels manufactured by additive manufacturing using the Material Jetting (MJ) method.

The micromodel geometries were designed using the stochastic model proposed by Quiblie (1984), Adler et al. (1990), and Hyman et al. (2014). For this study, four samples were fabricated, all possessing the same porosity of 0.45, but with varying correlation lengths (id: 15, 25, 35, and 45) that define the pore size distribution. The four cylindrical samples have a length of 50 mm and a diameter of 16 mm. For more details, see the related publication Lee et al. (2023)

The samples were completely scanned. Due to the limitation of the field of view at the required resolution, first the bottom part followed by the top part of the respective sample was scanned. Reconstruction was carried out separately for the top and bottom scans. Merging of the bottom and top parts was performed based on the reconstructed images. During the merging process, duplicated slices were naturally eliminated. The grayscale images obtained after the reconstruction and merging processes underwent segmentation, distinguishing between solid phase and pore space regions based on intensity values. Subsequently, the misclassified voxels resulting from the inherent noise in the micro-XRCT data were adjusted accordingly by assessing the connectivity between pixels (isolated pixels were reclassified to the neighboring class).

Simulations using the lattice Boltzmann method to determine the permeability of the scanned mircomodels can be found in the related dataset Lee et al. (2023).

Identifier
DOI https://doi.org/10.18419/darus-3243
Metadata Access https://darus.uni-stuttgart.de/oai?verb=GetRecord&metadataPrefix=oai_datacite&identifier=doi:10.18419/darus-3243
Provenance
Creator Ruf, Matthias ORCID logo; Lee, Dongwon ORCID logo; Yiotis, Andreas (ORCID: 0000-0003-2818-561X); Steeb, Holger ORCID logo
Publisher DaRUS
Contributor Steeb, Holger; Yiotis, Andreas; Porous Media Lab; Ruf, Matthias; Lee, Dongwon
Publication Year 2023
Funding Reference DFG SFB 1313 ‐ 327154368 ; DFG EXC 2075 - 390740016
Rights CC BY 4.0; info:eu-repo/semantics/openAccess; http://creativecommons.org/licenses/by/4.0
OpenAccess true
Contact Steeb, Holger (University of Stuttgart, Institute of Applied Mechanics (CE) & SC SimTech); Yiotis, Andreas (Technical University of Crete)
Representation
Resource Type Image data; Dataset
Format application/x-gzip
Size 22971600; 36108641475; 9586590596; 19814154; 36208848054; 8596185094; 14616412; 36082118424; 9232772732; 13958121; 35921789747; 9594747516
Version 1.0
Discipline Construction Engineering and Architecture; Earth and Environmental Science; Engineering; Engineering Sciences; Environmental Research; Geosciences; Natural Sciences
Spatial Coverage University of Stuttgart, Institute of Applied Mechanics (CE), Stuttgart, 70569, Germany