Multi-directional disturbance effect of shear mechanical behaviors and fracturing mechanisms of rockmass intermittent structural plane under true triaxial shear test

After the excavation of deep mining tunnels and underground caverns, the stability of surrounding rock controlled by structural planes is prone to structural damage and even engineering disasters due to three-dimensional stress redistribution and multi-directional dynamic construction interference....

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Published inInternational journal of mining science and technology Vol. 35; no. 6; pp. 933 - 960
Main Authors Zheng, Zhi, Ma, Zhanpeng, Qi, Jinghua, Su, Guoshao, Lu, Gaoming, Pei, Shufeng, Jiang, Quan
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2025
Elsevier
Subjects
Different direction disturbances
Rockmass acoustic emission
Shear failure mechanism
Shear failure precursor
Shear mechanical properties
True triaxial shear test
True triaxial shear test
Different direction disturbances
Shear failure mechanism
Shear mechanical properties
Shear failure precursor
Rockmass acoustic emission
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Abstract After the excavation of deep mining tunnels and underground caverns, the stability of surrounding rock controlled by structural planes is prone to structural damage and even engineering disasters due to three-dimensional stress redistribution and multi-directional dynamic construction interference. However, the shear mechanical behavior, fracture evolution mechanism and precursor characteristics of rockmass under true triaxial stress and multi-directional coupling disturbance are not unclear. Therefore, this study carried out true triaxial shear tests on limestone intermittent structural planes under uni-, bi- and tri-directional coupling disturbances to analyze its mechanical behavior, fracture evolution mechanism and precursor characteristics. The results show that as the disturbance direction increase, the shear strength of limestone generally decreases, while the roughness of structural planes and the degree of anisotropy generally exhibit an increasing trend. The proportion of shear cracks on the structural plane increases with the increase of shear stress. The disturbance strain rate before failure shows a U-shaped trend. Near to disturbance failure, there were more high-energy and high-amplitude acoustic emission events near the structural plane, and b-value drops rapidly below 1, while lgN/b ratio increased to above 3. These findings provide experimental recognition and theoretical support for assessing the stability of rockmass under blasting excavation.
AbstractList After the excavation of deep mining tunnels and underground caverns, the stability of surrounding rock controlled by structural planes is prone to structural damage and even engineering disasters due to three-dimensional stress redistribution and multi-directional dynamic construction interference. However, the shear mechanical behavior, fracture evolution mechanism and precursor characteristics of rockmass under true triaxial stress and multi-directional coupling disturbance are not unclear. Therefore, this study carried out true triaxial shear tests on limestone intermittent structural planes under uni-, bi- and tri-directional coupling disturbances to analyze its mechanical behavior, fracture evolution mechanism and precursor characteristics. The results show that as the disturbance direction increase, the shear strength of limestone generally decreases, while the roughness of structural planes and the degree of anisotropy generally exhibit an increasing trend. The proportion of shear cracks on the structural plane increases with the increase of shear stress. The disturbance strain rate before failure shows a U-shaped trend. Near to disturbance failure, there were more high-energy and high-amplitude acoustic emission events near the structural plane, and b-value drops rapidly below 1, while lgN/b ratio increased to above 3. These findings provide experimental recognition and theoretical support for assessing the stability of rockmass under blasting excavation.
Author Lu, Gaoming
Pei, Shufeng
Zheng, Zhi
Jiang, Quan
Su, Guoshao
Qi, Jinghua
Ma, Zhanpeng
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  surname: Zheng
  fullname: Zheng, Zhi
  email: zhengzhi@gxu.edu.cn
  organization: State Key Laboratory of Featured Metal Materials and Life-cycle Safety for Composite Structures, Key Laboratory of Disaster Prevention and Structural Safety of Ministry of Education, College of Civil Engineering and Architecture, Guangxi University, Nanning 530004, China
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  givenname: Quan
  surname: Jiang
  fullname: Jiang, Quan
  organization: State Key Laboratory of Geomechanics and Geotechnical Engineering, Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, Wuhan 430071, China
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Keywords True triaxial shear test
Different direction disturbances
Shear failure mechanism
Shear mechanical properties
Shear failure precursor
Rockmass acoustic emission
Language English
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Snippet After the excavation of deep mining tunnels and underground caverns, the stability of surrounding rock controlled by structural planes is prone to structural...
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SubjectTerms Different direction disturbances
Rockmass acoustic emission
Shear failure mechanism
Shear failure precursor
Shear mechanical properties
True triaxial shear test
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Title Multi-directional disturbance effect of shear mechanical behaviors and fracturing mechanisms of rockmass intermittent structural plane under true triaxial shear test
URI https://dx.doi.org/10.1016/j.ijmst.2025.04.008
https://doaj.org/article/5ec30a86007b47bfbb4cf5ce70af91ee
Volume 35
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