Static and Dynamic Brazilian Tests on Layered Slate considering the Bedding Directivity

Static and Dynamic Brazilian Tests on Layered Slate considering the Bedding Directivity

A layered rock usually exhibits strong anisotropy due to its layered structure. In order to study the anisotropic effect on its static and dynamic tensile properties, a medium strength anisotropy slate is chosen and tested in five groups of bedding plane dip angles. The dynamic tests were carried ou...

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Main Authors: Xuefeng Ou, Xuemin Zhang, Han Feng, Cong Zhang, Xianshun Zhou, Lei Wang
Format: Article
Language:English
Published: Hindawi Limited 2020-01-01
Series:Advances in Civil Engineering
Online Access:http://dx.doi.org/10.1155/2020/8860558
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spelling doaj-1575174cde96410484272cd1236896fe2020-12-28T01:30:23ZengHindawi LimitedAdvances in Civil Engineering1687-80942020-01-01202010.1155/2020/8860558Static and Dynamic Brazilian Tests on Layered Slate considering the Bedding DirectivityXuefeng Ou0Xuemin Zhang1Han Feng2Cong Zhang3Xianshun Zhou4Lei Wang5National Engineering Laboratory of Highway Maintenance TechnologySchool of Civil EngineeringSchool of Civil EngineeringSchool of Civil EngineeringSchool of Civil EngineeringSchool of Civil EngineeringA layered rock usually exhibits strong anisotropy due to its layered structure. In order to study the anisotropic effect on its static and dynamic tensile properties, a medium strength anisotropy slate is chosen and tested in five groups of bedding plane dip angles. The dynamic tests were carried out by a split Hopkinson pressure bar (SHPB), and the failure process of rock samples is recorded by a high-speed camera. The failure mode and strength characteristic of the slate are analyzed. The static test results show that layered structure significantly affects the failure mode, and the influence of the bedding plane depends on the degree of anisotropy. The static and dynamic “tensile strength” exhibit the “U” type strength anisotropy. For samples in the same dip angle group, the “tensile strength” shows clear dynamic strengthening effect, and the growth rate is most significant at θ = 45°.http://dx.doi.org/10.1155/2020/8860558
collection DOAJ
language English
format Article
sources DOAJ
author Xuefeng Ou
Xuemin Zhang
Han Feng
Cong Zhang
Xianshun Zhou
Lei Wang
spellingShingle Xuefeng Ou
Xuemin Zhang
Han Feng
Cong Zhang
Xianshun Zhou
Lei Wang
Static and Dynamic Brazilian Tests on Layered Slate considering the Bedding Directivity
Advances in Civil Engineering
author_facet Xuefeng Ou
Xuemin Zhang
Han Feng
Cong Zhang
Xianshun Zhou
Lei Wang
author_sort Xuefeng Ou
title Static and Dynamic Brazilian Tests on Layered Slate considering the Bedding Directivity
title_short Static and Dynamic Brazilian Tests on Layered Slate considering the Bedding Directivity
title_full Static and Dynamic Brazilian Tests on Layered Slate considering the Bedding Directivity
title_fullStr Static and Dynamic Brazilian Tests on Layered Slate considering the Bedding Directivity
title_full_unstemmed Static and Dynamic Brazilian Tests on Layered Slate considering the Bedding Directivity
title_sort static and dynamic brazilian tests on layered slate considering the bedding directivity
publisher Hindawi Limited
series Advances in Civil Engineering
issn 1687-8094
publishDate 2020-01-01
description A layered rock usually exhibits strong anisotropy due to its layered structure. In order to study the anisotropic effect on its static and dynamic tensile properties, a medium strength anisotropy slate is chosen and tested in five groups of bedding plane dip angles. The dynamic tests were carried out by a split Hopkinson pressure bar (SHPB), and the failure process of rock samples is recorded by a high-speed camera. The failure mode and strength characteristic of the slate are analyzed. The static test results show that layered structure significantly affects the failure mode, and the influence of the bedding plane depends on the degree of anisotropy. The static and dynamic “tensile strength” exhibit the “U” type strength anisotropy. For samples in the same dip angle group, the “tensile strength” shows clear dynamic strengthening effect, and the growth rate is most significant at θ = 45°.
url http://dx.doi.org/10.1155/2020/8860558
work_keys_str_mv AT xuefengou staticanddynamicbraziliantestsonlayeredslateconsideringthebeddingdirectivity
AT xueminzhang staticanddynamicbraziliantestsonlayeredslateconsideringthebeddingdirectivity
AT hanfeng staticanddynamicbraziliantestsonlayeredslateconsideringthebeddingdirectivity
AT congzhang staticanddynamicbraziliantestsonlayeredslateconsideringthebeddingdirectivity
AT xianshunzhou staticanddynamicbraziliantestsonlayeredslateconsideringthebeddingdirectivity
AT leiwang staticanddynamicbraziliantestsonlayeredslateconsideringthebeddingdirectivity
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