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Continuum-Mechanics","citation:producerURL":"https://www.mib.uni-stuttgart.de/en/chair2/"},{"citation:producerName":"University of Stuttgart - SC SimTech","citation:producerURL":"https://www.simtech.uni-stuttgart.de/"}],"author":[{"citation:authorName":"Ruf, Matthias","citation:authorAffiliation":"University of Stuttgart, Institute of Applied Mechanics (CE)","authorIdentifierScheme":"ORCID","authorIdentifier":"0000-0003-0299-5921"},{"citation:authorName":"Steeb, Holger","citation:authorAffiliation":"University of Stuttgart, Institute of Applied Mechanics (CE) & SimTech","authorIdentifierScheme":"ORCID","authorIdentifier":"0000-0001-7602-4920"}],"citation:datasetContact":{"citation:datasetContactName":"Steeb, Holger","citation:datasetContactAffiliation":"University of Stuttgart, Institute of Applied Mechanics (CE) & SimTech"},"citation:dsDescription":{"citation:dsDescriptionValue":"Micro-XRCT data sets (projection and reconstructed images) of an in-situ experiment with an X-ray transparent flow cell. As a porous medium, a 3 mm cylindrical sandstone core from the County of Bentheim was investigated. The conceptual design of the cell was presented in Fusseis et al. (2014) and offers the possibility to apply a confining and backpressure, and to inject a pore\nfluid under X-ray radiation.
\nTwo scans were performed. The first scan was performed on the dry sample. The second scan was performed after the sample was saturated with 3M KI solution (3 mol potassium iodide per liter distilled water) with a constant flow of 100 µl/s against a backpressure of 0.28 MPa. To prevent hydrogen formation due to the X-rays, a flow of 0.5 µl/s was maintained against a backpressure of 0.28 MPa during the entire second scan. Both scans were performed under the same confining pressure of 0.6 MPa and with identical scan settings."},"publication":{"publicationCitation":"Ruf, M., & Steeb, H. (2020). An open, modular, and flexible micro X-ray computed tomography system for research. 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Journal of Synchrotron Radiation, 21(1), 251–253. https://doi.org/10.1107/S1600577513026969","citation:productionDate":"2019-11-20","title":"micro-XRCT data set of an in-situ flow experiment with an X-ray transparent flow cell","@id":"https://doi.org/10.18419/darus-691","@type":["ore:Aggregation","schema:Dataset"],"schema:version":"1.0","schema:name":"micro-XRCT data set of an in-situ flow experiment with an X-ray transparent flow cell","schema:dateModified":"Tue Sep 06 16:21:34 CEST 2022","schema:datePublished":"2020-06-22","schema:license":"http://creativecommons.org/licenses/by/4.0","dvcore:fileTermsOfAccess":{"dvcore:fileRequestAccess":false},"schema:includedInDataCatalog":"DaRUS","schema:isPartOf":{"schema:name":"Publication: An open, modular, and flexible micro X-ray computed tomography system for research","@id":"https://nfldevdataverse2.rus.uni-stuttgart.de/dataverse/mib-ls2-publications-xrct_system","schema:description":"This dataverse includes the micro-XRCT data sets which are presented in: \r\nRuf, M., & Steeb, H. 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