Testing Method for the Range of Fracture Zone of Rock Slope under Blasting Load
In engineering blasting, the determination of the range of rock blasting fracture zone has important guiding significance for blasting construction. This paper proposes a method that can accurately and directly obtain the range of rock blasting fracture zone. Based on the theory of elastic wave prop...
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Hindawi Limited
2021-01-01
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Series: | Shock and Vibration |
Online Access: | http://dx.doi.org/10.1155/2021/5574696 |
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doaj-e95f354e8e764dd780c25db5b3e304a42021-06-21T02:25:26ZengHindawi LimitedShock and Vibration1875-92032021-01-01202110.1155/2021/5574696Testing Method for the Range of Fracture Zone of Rock Slope under Blasting LoadZhide Wang0Zuyao Ma1Yuanyou Xia2Xiong Zhou3Manqing Lin4Jie Li5Jinyuan Wang6School of Civil Engineering and ArchitectureSchool of Civil Engineering and ArchitectureSchool of Civil Engineering and ArchitectureSchool of Civil Engineering and ArchitectureEngineering Research Center of Phosphorus Resources Development and Utilization of Ministry of EducationSchool of Civil Engineering and ArchitectureSchool of Civil Engineering and ArchitectureIn engineering blasting, the determination of the range of rock blasting fracture zone has important guiding significance for blasting construction. This paper proposes a method that can accurately and directly obtain the range of rock blasting fracture zone. Based on the theory of elastic wave propagation, test rods which are made of appropriate material are selected and prepared. A certain number of boreholes are drilled for subsequent insertion of the test rods along the direction perpendicular to the free surface of the excavation at a certain distance from the blast hole. Based on the field blasting test results, the deepest fracture position of the test rod is used as the boundary of the blasting fracture zone, and the range of the rock blasting fracture zone is obtained. A numerical analysis model is established according to the Mohr–Coulomb constitutive relationship and the Von Mises yield criterion. Then, the range of the fracture zone and the maximum horizontal radius of the fracture zone are analyzed and obtained. The numerical analysis results are compared with the field measured data. It is demonstrated that the range of the fracture zone obtained by the numerical simulation is in good agreement with the blasting test results of the pre-embedded test rods. The research results can provide references for the safety control of blasting and excavation of rock slopes.http://dx.doi.org/10.1155/2021/5574696 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Zhide Wang Zuyao Ma Yuanyou Xia Xiong Zhou Manqing Lin Jie Li Jinyuan Wang |
spellingShingle |
Zhide Wang Zuyao Ma Yuanyou Xia Xiong Zhou Manqing Lin Jie Li Jinyuan Wang Testing Method for the Range of Fracture Zone of Rock Slope under Blasting Load Shock and Vibration |
author_facet |
Zhide Wang Zuyao Ma Yuanyou Xia Xiong Zhou Manqing Lin Jie Li Jinyuan Wang |
author_sort |
Zhide Wang |
title |
Testing Method for the Range of Fracture Zone of Rock Slope under Blasting Load |
title_short |
Testing Method for the Range of Fracture Zone of Rock Slope under Blasting Load |
title_full |
Testing Method for the Range of Fracture Zone of Rock Slope under Blasting Load |
title_fullStr |
Testing Method for the Range of Fracture Zone of Rock Slope under Blasting Load |
title_full_unstemmed |
Testing Method for the Range of Fracture Zone of Rock Slope under Blasting Load |
title_sort |
testing method for the range of fracture zone of rock slope under blasting load |
publisher |
Hindawi Limited |
series |
Shock and Vibration |
issn |
1875-9203 |
publishDate |
2021-01-01 |
description |
In engineering blasting, the determination of the range of rock blasting fracture zone has important guiding significance for blasting construction. This paper proposes a method that can accurately and directly obtain the range of rock blasting fracture zone. Based on the theory of elastic wave propagation, test rods which are made of appropriate material are selected and prepared. A certain number of boreholes are drilled for subsequent insertion of the test rods along the direction perpendicular to the free surface of the excavation at a certain distance from the blast hole. Based on the field blasting test results, the deepest fracture position of the test rod is used as the boundary of the blasting fracture zone, and the range of the rock blasting fracture zone is obtained. A numerical analysis model is established according to the Mohr–Coulomb constitutive relationship and the Von Mises yield criterion. Then, the range of the fracture zone and the maximum horizontal radius of the fracture zone are analyzed and obtained. The numerical analysis results are compared with the field measured data. It is demonstrated that the range of the fracture zone obtained by the numerical simulation is in good agreement with the blasting test results of the pre-embedded test rods. The research results can provide references for the safety control of blasting and excavation of rock slopes. |
url |
http://dx.doi.org/10.1155/2021/5574696 |
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