Research on the Strength Characteristics and Crack Propagation Law of Noncoplanar Nonthrough Jointed Rock Mass by PFC2D

Research on the Strength Characteristics and Crack Propagation Law of Noncoplanar Nonthrough Jointed Rock Mass by PFC2D

In this study, five groups of numerical models with different conditions were established by using PFC2D (particle flow code) to simulate the direct shear tests of noncoplanar nonthrough jointed rock mass. It is proved that normal stress and shear rate, as well as the connectivity rate, relief angle...

Full description

Bibliographic Details
Main Authors: Qingzhi Chen, Yuanming Liu, Shilong Mei, Kai Cao, Bin Du, Wei Wang
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:Advances in Civil Engineering
Online Access:http://dx.doi.org/10.1155/2021/6935414
id doaj-04643a43f9a04abc98a660ab4d1c81a6
record_format Article
spelling doaj-04643a43f9a04abc98a660ab4d1c81a62021-08-16T00:01:02ZengHindawi LimitedAdvances in Civil Engineering1687-80942021-01-01202110.1155/2021/6935414Research on the Strength Characteristics and Crack Propagation Law of Noncoplanar Nonthrough Jointed Rock Mass by PFC2DQingzhi Chen0Yuanming Liu1Shilong Mei2Kai Cao3Bin Du4Wei Wang5College of Civil EngineeringCollege of Civil EngineeringCollege of Architecture and Urban PlanningGuiyang Vocational and Technical CollegeGuizhou Transportation Planning Survey Design & Research Institute Co., Ltd.General Construction Co.of CCTEB Group Co., Ltd.In this study, five groups of numerical models with different conditions were established by using PFC2D (particle flow code) to simulate the direct shear tests of noncoplanar nonthrough jointed rock mass. It is proved that normal stress and shear rate, as well as the connectivity rate, relief angle, and inclination angle of joints, have significant influence on the strength characteristics, number of cracks, and the stress of the rock mass according to measurement taken at five different measurement circles in the rock mass. Moreover, it is determined that in the process of shearing, no matter which group of tests are conducted, the number of cracks in the rock mass caused by tension is far more than that caused by the shear action. In other words, the failure of rock mass with different planes and discontinuous joints is mainly caused by the tension in the process of the direct shear test.http://dx.doi.org/10.1155/2021/6935414
collection DOAJ
language English
format Article
sources DOAJ
author Qingzhi Chen
Yuanming Liu
Shilong Mei
Kai Cao
Bin Du
Wei Wang
spellingShingle Qingzhi Chen
Yuanming Liu
Shilong Mei
Kai Cao
Bin Du
Wei Wang
Research on the Strength Characteristics and Crack Propagation Law of Noncoplanar Nonthrough Jointed Rock Mass by PFC2D
Advances in Civil Engineering
author_facet Qingzhi Chen
Yuanming Liu
Shilong Mei
Kai Cao
Bin Du
Wei Wang
author_sort Qingzhi Chen
title Research on the Strength Characteristics and Crack Propagation Law of Noncoplanar Nonthrough Jointed Rock Mass by PFC2D
title_short Research on the Strength Characteristics and Crack Propagation Law of Noncoplanar Nonthrough Jointed Rock Mass by PFC2D
title_full Research on the Strength Characteristics and Crack Propagation Law of Noncoplanar Nonthrough Jointed Rock Mass by PFC2D
title_fullStr Research on the Strength Characteristics and Crack Propagation Law of Noncoplanar Nonthrough Jointed Rock Mass by PFC2D
title_full_unstemmed Research on the Strength Characteristics and Crack Propagation Law of Noncoplanar Nonthrough Jointed Rock Mass by PFC2D
title_sort research on the strength characteristics and crack propagation law of noncoplanar nonthrough jointed rock mass by pfc2d
publisher Hindawi Limited
series Advances in Civil Engineering
issn 1687-8094
publishDate 2021-01-01
description In this study, five groups of numerical models with different conditions were established by using PFC2D (particle flow code) to simulate the direct shear tests of noncoplanar nonthrough jointed rock mass. It is proved that normal stress and shear rate, as well as the connectivity rate, relief angle, and inclination angle of joints, have significant influence on the strength characteristics, number of cracks, and the stress of the rock mass according to measurement taken at five different measurement circles in the rock mass. Moreover, it is determined that in the process of shearing, no matter which group of tests are conducted, the number of cracks in the rock mass caused by tension is far more than that caused by the shear action. In other words, the failure of rock mass with different planes and discontinuous joints is mainly caused by the tension in the process of the direct shear test.
url http://dx.doi.org/10.1155/2021/6935414
work_keys_str_mv AT qingzhichen researchonthestrengthcharacteristicsandcrackpropagationlawofnoncoplanarnonthroughjointedrockmassbypfc2d
AT yuanmingliu researchonthestrengthcharacteristicsandcrackpropagationlawofnoncoplanarnonthroughjointedrockmassbypfc2d
AT shilongmei researchonthestrengthcharacteristicsandcrackpropagationlawofnoncoplanarnonthroughjointedrockmassbypfc2d
AT kaicao researchonthestrengthcharacteristicsandcrackpropagationlawofnoncoplanarnonthroughjointedrockmassbypfc2d
AT bindu researchonthestrengthcharacteristicsandcrackpropagationlawofnoncoplanarnonthroughjointedrockmassbypfc2d
AT weiwang researchonthestrengthcharacteristicsandcrackpropagationlawofnoncoplanarnonthroughjointedrockmassbypfc2d
_version_ 1721206158743568384

Similar Items