高水压基岩竖井井壁模型试验研究

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (411 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要针对西部地区煤矿井筒建设的含水基岩条件，研究基于围岩、井壁、水相互作用的井筒稳态模型试验准则关系；参考无限围岩中井筒平面应变力学模型，开发井筒模型试验系统，重点介绍自重应力场和孔隙静水压力两大加载系统及其结构和技术；根据L9(34)正交表，完成高水压基岩井筒模型的正交试验，根据正交统计分析方法，得出影响井壁内缘位移的第一、二、三、四因素依次为静水压力、围岩厚度、剪切模量和井壁厚度；通过模型试验过程观察和数据分析，掌握高水压基岩井壁内外缘位移和应变基本规律；通过井壁破坏过程分析得知，在破坏前，井壁内缘压应变逐渐加快的同时，井壁外缘由拉应变急剧转为压应变，并最终发展到突然断裂突水，呈现脆性机制特征，这种现象有待深入研究。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章

关键词 ：采矿工程, 井壁, 模型试验, 高水压, 混凝土衬砌, 流固耦合

Abstract：In light of the aquifer rock condition of coal mines western in China，the relationship of similarity criterion related to steady model tests of interaction of water，surrounding rock and shaft lining are firstly studied. Then the shaft test device have been developed according to the mechanical model of plane strain shaft in infinite ground，showing especially in the aspects of structure and technology of gravity loading and pore water pressure loading system. According to the orthogonal tests table of L9(34)，a series of tests of shaft system under high water pressure are carried out. Upon the analysis theory of orthogonal tests，the sequences of factors which influence the inner side displacement of shaft lining are revealed as follows：the first is water pressure，the second is the thickness of surrounding rock and the third is shearing modulus；lining thickness is listed as the 4th influencing factor. Through monitoring and data study during testing process，the basic laws of inner side displacement and hoop strain of concrete lining developed by high water pressure are revealed. As the rupture state is coming in the testing process，compression deformation speeds up in the inner side of shaft lining，while the outer side of lining is under a sharp change from the state of hoop tension to compression，showing a brittle failure behavior of plain concrete. This newly discovery is worth further exploring.

Key words： mining engineering shaft lining model test high water pressure concrete lining fluid and solid coupled

收稿日期: 2011-05-20

引用本文:

周晓敏1，周国庆2，胡启胜1，马成炫1. 高水压基岩竖井井壁模型试验研究[J]. 岩石力学与工程学报, 2011, 30(12): 2514-2522.
ZHOU Xiaomin1，ZHOU Guoqing2，HU Qisheng1，MA Chengxuan1. MODEL TEST RESEARCH ON SHAFT LINING BUILT IN HIGH PRESSURE ROCK AQUIFER. , 2011, 30(12): 2514-2522.

链接本文:

http://www.rockmech.org/CN/Y2011/V30/I12/2514

[2]	朱维申，张乾兵，李勇，等. 真三轴荷载条件下大型地质力学模型试验系统的研制及其应用[J]. 岩土力学与工程学报，2010，29(1)：1-7.(ZHU Weishen，ZHANG Qianbing，LI Yong，et al. Development of large-scale geomechanical model test system under true triaxial loading and its applications[J]. Chinese Journal of Rock Mechanics and Engineering，2010，29(1)：1-7.(in Chinese))
[6]	姜耀东，刘文岗，赵毅鑫. 一种新型真三轴巷道模型试验台的研制[J]. 岩石力学与工程学报，2004，23(21)：3 727-3 731.(JIANG Yaodong，LIU Wengang，ZHAO Yixin. Design and development of a new type of triaxial system for roadway model test[J]. Chinese Journal of Rock Mechanics and Engineering，2004，23(21)：3 727-3 731.(in Chinese))
[10]	何川，张建刚，杨征. 武汉长江隧道管片衬砌结构力学特征模型试验研究[J]. 土木工程学报，2008，41(12)：85-90.(HE Chuan，ZHANG Jiangang，YANG Zheng. Model test study on the mechanical characteristics of segment lining for the Wuhan Yangtze River tunnel[J]. China Civil Engineering Journal，2008，41(12)：85-90.(in Chinese))
[13]	倪兴华，许延春，王同福，等. 厚冲积层立井破裂机制与防治[M]. 北京：煤炭工业出版社，2007：44-61.(NI Xinghua，XU Yanchun，WANG Tongfu，et al. Fracture mechanism of shaft lining in the thick alluvium[M]. Beijing：China Coal Industry Publishing House，2007：44-61.(in Chinese)) " target="_blank">
[16]	叶源新，刘光廷. 岩石渗流应力耦合特性研究[J]. 岩石力学与工程学报，2005，24(14)：2 518-2 525.(YE Yuanxin，LIU Guangting. Research on coupling characteristics of fluid flow and stress within rock[J]. Chinese Journal of Rock Mechanics and Engineering，2005，24(14)：2 518-2 525.(in Chinese))
[4]	刁心宏，刘士雨，官伟. 软岩隧道围岩压力模型试验研究[J]. 华东交通大学学报，2008，25(5)：1-7.(DIAO Xinhong，LIU Shiyu，GUAN Wei. Research on model test of wall rock stress of tunnel in soft rock[J]. Journal of East China Jiaotong University，2008，25(5)：1-7.(in Chinese))
[8]	谭忠盛，李健，薛斌，等. 岩溶隧道衬砌水压力分布规律研究[J]. 中国工程科学，2009，11(12)：87-92.(TAN Zhongsheng，LI Jian，XUE Bin，et al. Research of water distribution of tunnel lining in karst region[J]. Engineering Science，2009，11(12)：87-92.(in Chinese))
[12]	黄家会，杨维好. 井壁竖直附加力变化规律模拟试验研究[J]. 岩土工程学报，2006，28(10)：1 204-1 207.(HUANG Jiahui，YANG Weihao. Study on variation of vertical additional force on shaft lining by simulation tests[J]. Chinese Journal of Geotechnical Engineering，2006，28(10)：1 204-1 207.(in Chinese))
[18]	左东启. 模型试验的理论与方法[M]. 北京：科学出版社，1983：3-40.(ZUO Dongqi. Model test theory and methods[M]. Beijing：Science Press，1983：3-40.(in Chinese)) " target="_blank">
[19]	梁国华. 梅林庙矿井筒检查孔勘察报告[R]. 北京：神华(北京)遥感勘察有限责任公司，2009.(LIANG Guohua. Reconnaissance report on boring and coring inspection for shaft sinking in Meilinmiao Colliery[R]. Beijing：Shenhua(Beijing) Remote Sense and Reconnaissance Co.，Ltd.，2009.(in Chinese)) " target="_blank">
[17]	李培超，孔祥言，卢德唐. 饱和多孔介质流固耦合渗流的数学模型[J]. 水动力学研究与进展，2003，18(4)：419-426.(LI Peichao，KONG Xiangyan，LU Detang. Mathematical model of flow in saturated porous media on account of fluid-solid coupling effect[J]. Journal of Hydrodynamics，2003，18(4)：419-426.(in Chinese))
[14]	张有天. 岩石隧道衬砌外水压力问题的讨论[J]. 现代隧道技术，2003，40(3)：1-10.(ZHANG Youtian. Discussion on external hydraulic pressure upon rock tunnel lining[J]. Modern Tunnelling Technology，2003，40(3)：1-10.(in Chinese))
[1]	周晓敏，陈建华，罗晓青. 孔隙型含水基岩段竖井井壁厚度拟订设计研究[J]. 煤炭学报，2009，34(9)：1 174-1 178.(ZHOU Xiaomin，CHEN Jianhua，LUO Xiaoqing. Research on the preliminary thickness design of shaft lining in porous rock aquifer[J]. Journal of China Coal Society，2009，34(9)：1 174-1 178.(in Chinese))
[3]	吴成刚，何川，李讯，等. 高地应力下隧道结构力学的模型试验研究[J]. 现代隧道技术，2008，(增)：250-255.(WU Chenggang，HE Chuan，LI Xun，et al. Research on model tests for the mechanism of tunnel structure under high geostress[J]. Modern Tunneling Technology，2008，(Supp.)：250-255.(in Chinese)) " target="_blank">
[5]	陈克勤，王瑛，尹廷林，等. 岩体平面相似模型试验系统的研制[J]. 工业与试验，2009，49(2)：46-48.(CHEN Keqing，WANG Ying，YIN Tinglin，et al. Development of plane similarity test system of rock mass[J]. Engineering and Test，2009，49(2)：46-48.(in Chinese))
[7]	赵瑜，卢义玉，陈浩. 深埋隧道三心拱洞室平面应变模型试验研究[J]. 土木工程学报，2010，43(3)：68-74.(ZHAO Yu，LU Yiyu，CHEN Hao. A plane strain modeling study of a three-center arch for deep tunnels[J]. China Civil Engineering Journal，2010，43(3)：68-74.(in Chinese))
[9]	丁浩，蒋树屏，陈林杰. 公路隧道外水压力的相似模型试验研究[J]. 公路交通科技，2008，25(10)：99-104.(DING Hao，JIANG Shuping，CHEN Linjie. Study on similar model test for external water pressure of highway tunnel[J]. Journal of Highway and Transportation Research and Development，2008，25(10)：99-104.(in Chinese))
[11]	周国庆，崔广心，程锡禄，等. 地下工程问题三轴模拟试验台及其应用[J]. 岩土工程学报，1999，21(6)：715-718.(ZHOU Guoqing，CUI Guangxin，CHENG Xilu，YANG Weihao. An experimental frame for geomechanical engineering simulation and its application[J]. Chinese Journal of Geotechnical Engineering，1999，21(6)：715-718. (in Chinese))
[15]	王建秀，杨立中，何静. 深埋隧道衬砌水载荷计算的基本理论[J]. 岩石力学与工程学报，2002，21(9)：1 339-1 343.(WANG Jianxiu，YANG Lizhong，HE Jing. Introduction to the calculation of external water pressure of tunnel lining[J]. Chinese Journal of Rock Mechanics and Engineering，2002，21(9)：1 339-1 343.(in Chinese)) " target="_blank">
[20]	马成良，张海军，李素平. 现代试验设计优化方法及应用[M]. 郑州：郑州大学出版社，2006：126-340.(MA Chengliang，ZHANG Haijun，LI Suping. Optimization method of modern tests design and its application[M]. Zhengzhou：Zhengzhou University Press，2006：126-340.(in Chinese)) " target="_blank">