Digital Volume Correlation Applied To X-ray Micro-Tomography Images in Uniaxial Creep Tests on Anisotropic Clayey Rock

Digital Volume Correlation Applied To X-ray Micro-Tomography Images in Uniaxial Creep Tests on Anisotropic Clayey Rock

Creep tests are commonly performed to characterize time-dependent deformation of geological materials. Classical measuring methods are not suitable for long term tests and not able to provide full three-dimensional strain fields. In this study, Digital Volume Correlation (DVC) is applied to X-ray mi...

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Main Authors: Hailing Shi, Jerome Hosdez, Thomas Rougelot, Shouyi Xie, Jianfu Shao, Jean Talandier, Giuseppe Lacidogna
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Applied Sciences
Subjects:
X-ray micro-tomography
Digital Volume Correlation
creep strain
creep test
clayey rocks
structural anisotropy
Online Access:https://www.mdpi.com/2076-3417/10/14/4898
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spelling doaj-7e0ee689040a44fe90f26ddc1ac29a682020-11-25T02:53:51ZengMDPI AGApplied Sciences2076-34172020-07-01104898489810.3390/app10144898Digital Volume Correlation Applied To X-ray Micro-Tomography Images in Uniaxial Creep Tests on Anisotropic Clayey RockHailing Shi0Jerome Hosdez1Thomas Rougelot2Shouyi Xie3Jianfu Shao4Jean Talandier5Giuseppe Lacidogna6Univ. Lille, CNRS, Centrale Lille, UMR9013—LaMcube—Laboratoire de Mécanique Multiphysique et Multiéchelle , F-59000 Lille, FranceUniv. Lille, CNRS, Centrale Lille, UMR9013—LaMcube—Laboratoire de Mécanique Multiphysique et Multiéchelle , F-59000 Lille, FranceUniv. Lille, CNRS, Centrale Lille, UMR9013—LaMcube—Laboratoire de Mécanique Multiphysique et Multiéchelle , F-59000 Lille, FranceUniv. Lille, CNRS, Centrale Lille, UMR9013—LaMcube—Laboratoire de Mécanique Multiphysique et Multiéchelle , F-59000 Lille, FranceUniv. Lille, CNRS, Centrale Lille, UMR9013—LaMcube—Laboratoire de Mécanique Multiphysique et Multiéchelle , F-59000 Lille, FranceAndra , 92298 Chatenay Malabry, FranceDepartment of Structural Geotechnical and Building Engineering, Politecnico di Torino, 10138 Torino, ItalyCreep tests are commonly performed to characterize time-dependent deformation of geological materials. Classical measuring methods are not suitable for long term tests and not able to provide full three-dimensional strain fields. In this study, Digital Volume Correlation (DVC) is applied to X-ray micro-tomography (XRMT) images from creep tests on a hard clayey rock. In situ uniaxial compression creep tests are performed under different levels of stress and with different loading orientations with respect to the structural anisotropy of rock. Based on the XRMT images taken during the creep tests, DVC is applied to compute the full three dimensional strain fields and global averages strains of tested samples. The effects of bedding planes and hard inclusions on the non-uniform distribution of strains are analyzed.https://www.mdpi.com/2076-3417/10/14/4898X-ray micro-tomographyDigital Volume Correlationcreep straincreep testclayey rocksstructural anisotropy
collection DOAJ
language English
format Article
sources DOAJ
author Hailing Shi
Jerome Hosdez
Thomas Rougelot
Shouyi Xie
Jianfu Shao
Jean Talandier
Giuseppe Lacidogna
spellingShingle Hailing Shi
Jerome Hosdez
Thomas Rougelot
Shouyi Xie
Jianfu Shao
Jean Talandier
Giuseppe Lacidogna
Digital Volume Correlation Applied To X-ray Micro-Tomography Images in Uniaxial Creep Tests on Anisotropic Clayey Rock
Applied Sciences
X-ray micro-tomography
Digital Volume Correlation
creep strain
creep test
clayey rocks
structural anisotropy
author_facet Hailing Shi
Jerome Hosdez
Thomas Rougelot
Shouyi Xie
Jianfu Shao
Jean Talandier
Giuseppe Lacidogna
author_sort Hailing Shi
title Digital Volume Correlation Applied To X-ray Micro-Tomography Images in Uniaxial Creep Tests on Anisotropic Clayey Rock
title_short Digital Volume Correlation Applied To X-ray Micro-Tomography Images in Uniaxial Creep Tests on Anisotropic Clayey Rock
title_full Digital Volume Correlation Applied To X-ray Micro-Tomography Images in Uniaxial Creep Tests on Anisotropic Clayey Rock
title_fullStr Digital Volume Correlation Applied To X-ray Micro-Tomography Images in Uniaxial Creep Tests on Anisotropic Clayey Rock
title_full_unstemmed Digital Volume Correlation Applied To X-ray Micro-Tomography Images in Uniaxial Creep Tests on Anisotropic Clayey Rock
title_sort digital volume correlation applied to x-ray micro-tomography images in uniaxial creep tests on anisotropic clayey rock
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2020-07-01
description Creep tests are commonly performed to characterize time-dependent deformation of geological materials. Classical measuring methods are not suitable for long term tests and not able to provide full three-dimensional strain fields. In this study, Digital Volume Correlation (DVC) is applied to X-ray micro-tomography (XRMT) images from creep tests on a hard clayey rock. In situ uniaxial compression creep tests are performed under different levels of stress and with different loading orientations with respect to the structural anisotropy of rock. Based on the XRMT images taken during the creep tests, DVC is applied to compute the full three dimensional strain fields and global averages strains of tested samples. The effects of bedding planes and hard inclusions on the non-uniform distribution of strains are analyzed.
topic X-ray micro-tomography
Digital Volume Correlation
creep strain
creep test
clayey rocks
structural anisotropy
url https://www.mdpi.com/2076-3417/10/14/4898
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AT jeromehosdez digitalvolumecorrelationappliedtoxraymicrotomographyimagesinuniaxialcreeptestsonanisotropicclayeyrock
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