基于Mohr-Coulomb准则隧道围岩-支护体系协同作用下支护强度分析

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中文摘要：确定围岩-支护结构体系动态协同变形关系是地下工程支护需要解决的关键问题之一.运用Mohr-Coulomb准则推导隧道开挖支护后围岩径向变形与支护结构径向变形的协同方程,探讨Ⅳ级围岩塑性半径、围岩位移及支护刚度随支护强度的变化关系;并运用FLAC3D数值模拟验证协同变形方程的合理性和有效性.结果表明,围岩-支护结构体系协同变形方程能很好地反映围岩位移和塑性区半径随支护强度变化的关系,且相互关系是非线性的.支护强度为0.75 MPa时,理论计算拱顶沉降为18.9 mm,数值模拟拱顶沉降为21.6 mm;支护强度为1.5 MPa时,理论计算拱顶沉降为11.2mm,数值模拟拱顶沉降为11.1 mm,表明围岩-支护结构动态协同变形方程的有效性.针对Ⅳ级围岩在采用超前支护和交叉中隔壁法(cross diaphragm,CRD)施工时,建议支护强度设计为0.75～1.5 MPa,支护刚度设计为59.8～375.0 kN/mm.

外文标题：Support Strength Analysis under the Synergistic Action of Tunnel Surrounding Rock and Support System Based on Mohr-Coulomb Criterion

外文摘要：Determining the dynamic synergistic deformation relationship of surrounding rock-support structure system is one of the key problems to be solved in underground engineering support.The synergistic equation of radial deformation of surrounding rock and radial deformation of supporting structure after tunnel excavation and support was derived by using Mohr-Coulomb criterion.The relationship between the plastic radius,displacement of surrounding rock and supporting stiffness of grade Ⅳ surrounding rock with supporting strength was discussed.FLAC3D numerical simulation was used to verify the rationality and effectiveness of the synergistic deformation equation.The results show that the collaborative deformation equation of surrounding rock-supporting structure system can well reflect the relationship between surrounding rock displacement and plastic zone radius with the change of supporting strength,and the relationship is nonlinear.When the supporting strength is 0.75 MPa,the theoretical calculation of vault settlement is 18.9 mm,the numerical simulation of vault settlement is 21.6 mm.When the supporting strength is 1.5 MPa,the theoretical calculation of vault settlement is 11.2 mm,and the numerical simulation of vault settlement is 11.1 mm,which shows the effectiveness of the dynamic synergistic deformation equation of surrounding rock-supporting structure.In view of the Ⅳ surrounding rock in the use of advanced support and cross diaphragm(CRD)construction method,it is recommended that the support strength design is 0.75～1.5 MPa,the support stiffness design is 59.8～375.0 kN/mm.

外文关键词：

Mohr-Coulomb criterionsurrounding rock-support structure systemsupport strengthsupporting stiffness

作者：

梁译文、查文华、许涛、刘造保、刘小虎

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作者单位：

东华理工大学土木与建筑工程学院,南昌 330013

东北大学资源与土木工程学院,沈阳 110819

安徽理工大学土木建筑学院,淮南 232001

关键词：

Mohr-Coulomb准则围岩-支护结构体系支护强度支护刚度

基金：

国家自然科学基金国家自然科学基金江西省双千计划支持项目2021年江西省研究生创新项目东华理工大学校科研启动基金

项目编号：

5196400252264003DHSQT22021002YC2021-B1601410000435

出版年：

2024

DOI：

10.12404/j.issn.1671-1815.2301284

科学技术与工程

中国技术经济学会

科学技术与工程

CSTPCD北大核心

影响因子：0.338

ISSN：1671-1815

年,卷(期)：2024.24(1)

参考文献量16