岩石黏结摩擦特性及非线性强度的指数准则描述

doi:10.13722/j.cnki.jrme.2015.1199

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (340 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要岩石具有黏结和摩擦特性，但两者在同一位置并不同时存在。裂隙摩擦力随围压增加，达到邻近完整岩石黏结力后将不再滑移引起材料破坏，影响试样强度的裂隙倾角范围随之减小，引起强度非线性增加。主控裂隙引起强度在低围压下线性变化，但不能以Coulomb准则直接确定岩石的内摩擦角。砂岩内存在多种倾角的自然裂隙，引起单轴压缩及低围压的强度离散，围压增高裂隙影响减小，强度随围压规则变化而以指数准则描述；轴向压缩塑性变形引起大理岩黏结力由低向高逐步丧失，而热力损伤引起黏结力整体降低；冻结使岩石黏结力提高而内摩擦角不变。若岩石具有宏观各向同性特征，则常规三轴强度可用指数准则描述，据其确定的初始围压影响系数可估计裂隙摩擦系数；进而理解裂隙对试样强度影响的非线性特征，评价岩石材料的真实黏结力和损伤。

	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
	李冰洋
	尤明庆

关键词 ：岩石力学, 裂隙, 围压, 指数准则, 损伤, 加热, 冻结

Abstract：The cohesion and friction of rock do not act at the same location simultaneously, therefore，the linear Coulomb criterion does not describe the rock strength accurately. The friction within fissures is related to the confining pressure. A fissure will not slide as the friction approaches the cohesion of intact rock in its neighborhood. And thus，the range of dip angle of fissures affecting the strength of specimen decreases gradually with the increase of confining pressure. The linear variation of the strength under the low confining pressure is usually induced from the fissures with the specific dip angle，and is not applicable to calculate the internal friction coefficient in the Coulomb criterion. The natural fissures with various dip angles in sandstones result in the scattered uniaxial compressive strength under the low confining pressure. The strength varies regularly with the confining pressure，and their relationship can be described with the exponential criterion. The plastic deformation due to the axial compression results in the cohesion losing from low to high in marble specimens，while the thermal damage in marble causes the cohesion losing in full scale. Freezing enhances the cohesion but has no influence on the internal friction. The conventional triaxial strength of macroscopically isotropic rock is perfectly fitted with the exponential criterion，from which the initial influence coefficient of confining pressure on strength is applicable to estimate the friction coefficient of fissures.

Key words： rock mechanics fissure confining pressure exponential criterion damage heated frozen

引用本文:

李冰洋，尤明庆. 岩石黏结摩擦特性及非线性强度的指数准则描述[J]. 岩石力学与工程学报, 2016, 35(10): 1945-1953.
LI Bingyang，YOU Mingqing. Nonlinear strength of rocks with cohesion and friction using the exponential criterion. , 2016, 35(10): 1945-1953.

链接本文:

http://www.rockmech.org/CN/10.13722/j.cnki.jrme.2015.1199 或 http://www.rockmech.org/CN/Y2016/V35/I10/1945

[6]	尤明庆. 完整岩石的强度与强度准则[J]. 复旦学报：自然科学版，2013，52(5)：569-582.(YOU Mingqing. Strength and strength criteria for intact rocks[J]. Journal of Fudan University：Natural Science，2013，52(5)：569-582.(in Chinese)) " target="_blank">
[7]	尤明庆. 岩样三轴压缩的破坏形式和Coulomb强度准则[J]. 地质力学学报，2002，8(2)：179-185.(YOU Mingqing. Destroy character and Coulomb criterion of rock specimen in pseudo-triaxial compression[J]. Journal of Geomechanics，2002，8(2)：179-185.(in Chinese)) " target="_blank">
[11]	SAVAGE J C，BYERLEE J D，LOCKNER D A. Is internal friction friction?[J]. Geophysical Research Letters，1996，23(5)：487-490. " target="_blank">
[2]	HUDSON J A，HARRISON J P. Engineering rock mechanics：Part I，An introduction to the principles[M]. Oxford：Elsevier，1997：106-108. " target="_blank">
[26]	SCHWARTZ A E. Failure of rock in the triaxial shear test[C]// Proceedings of the 6th US Symposium on Rock Mechanics. Rolla，Missouri：[s. n.]，1964：109-151. " target="_blank">
[3]	JAEGER J C，COOK N G W，ZIMMERMAN R W. Fundamentals of rock mechanics[M]. New York：Wiley-Blackwell，2007：90-94. " target="_blank">
[12]	YOU M Q. Three independent parameters to describe conventional triaxial compression strength of intact rocks[J]. Journal of Rock Mechanics and Geotechnical Engineering，2010，2(4)：350-356. " target="_blank">
[24]	YOU M Q. Strength and damage of marble in ductile failure[J]. Journal of Rock Mechanics and Geotechnical Engineering，2011，3(2)：161-166. " target="_blank">
[36]	尤明庆，苏承东，周英. 不同煤块的强度变形特征及强度准则的回归方法[J]. 岩石力学与工程学报，2003，22(12)：2 081-2 085. (YOU Mingqing，SU Chengdong，ZHOU Ying. Strength and deformation of specimens for different coal blocks and regression method of strength criteria[J]. Chinese Journal of Rock Mechanics and Engineering，2003，22(12)：2 081-2 085.(in Chinese)) " target="_blank">
[1]	LABUZ J F，ZANG A. ISRM suggested method：Mohr-Coulomb failure criterion[J]. Rock Mechanics and Rock Engineering，2012，45(6)：975-979.
[9]	于庆磊，杨天鸿，郑超，等. 岩石细观结构对变形强度影响的数值分析[J]. 岩土力学，2011，32(11)：3 468-3 472.(YU Qinglei，YANG Tianhong，ZHENG Chao，et al. Numerical analysis of influence of rock mesostructure on its deformation and strength[J]. Rock and Soil Mechanics，2011，32(11)：3 468-3 472.(in Chinese)) " target="_blank">
[13]	MOORE D E，LOCKNER D A. The role of microcracking in shear-fracture propagation in granite[J]. Journal of Structural Geology，1995，17(1)：95-114. " target="_blank">
[15]	尤明庆. 围压对岩石试样强度的影响及离散性[J]. 岩石力学与工程学报，2014，33(5)：929-937.(YOU Mingqing. Study on effect of confining pressure on strength and the scatter of rock specimens[J]. Chinese Journal of Rock Mechanics and Engineering，2014，33(5)：929-937.(in Chinese))
[21]	汪斌，朱杰兵，邬爱清，等. 高应力下岩石非线性强度特性的试验验证[J]. 岩石力学与工程学报，2010，29(3)：542-548.(WANG Bin，ZHU Jiebing，WU Aiqing，et al. Experimental validation of nonlinear strength property of rock under high geostress[J]. Chinese Journal of Rock Mechanics and Engineering，2010，29(3)：542-548. (in Chinese))
[23]	BESUELLE P，DESRUES J，RAYNAUD S. Experimental characterization of the localization phenomenon inside a Vosges sandstone in a triaxial cell[J]. International Journal of Rock Mechanics and Mining Sciences，2000，37(8)：1 223-1 237. " target="_blank">
[5]	YOU M Q. Comparison of the accuracy of some conventional triaxial strength criteria for intact rock[J]. International Journal of Rock Mechanics and Mining Sciences，2011，48(5)：852-863.
[14]	陈颙，黄庭芳，刘恩儒. 岩石物理学[M]. 合肥：中国科学技术大学出版社，2009：3-13.(CHEN Yong，HUANG Tingfang，LIU Enru. Physics of rocks[M]. Hefei：China University of Science and Technology Press，2009：3-13.(in Chinese)) " target="_blank">
[17]	苏承东，吴秋红. 含天然贯通弱面石灰岩的力学性质研究[J]. 岩石力学与工程学报，2011，30(增2)：929-937.(SU Chengdong，WU Qiuhong. Study of mechanical property of limestone specimens with natural continuous weak plane[J]. Chinese Journal of Rock Mechanics and Engineering，2011，30(Supp.2)：929-937.(in Chinese)) " target="_blank">
[19]	张广清，陈勉. 基于自锁概念的岩体弱面破坏模型与规律研究[J].岩土工程学报，2009，31(7)：1 052-1 058.(ZHANG Guangqing，CHEN Mian. Rock mass failure with self-locking concept[J]. Chinese Journal of Geotechnical Engineering，2009，31(7)：1 052-1 058.(in Chinese)) " target="_blank">
[29]	尤明庆，吴秋红，苏承东. 花岗岩直板轴向压缩的分层破坏及围岩失稳探讨. 岩石力学与工程学报，2015，34(11)：2 346-2 354.(YOU Mingqing，WU Qiuhong，SU Chengdong. Laminated failure of granite plates under axial compression and instability of surrounding rock[J]. Chinese Journal of Rock Mechanics and Engineering，2015，34(11)：2 346-2 354.(in Chinese)) " target="_blank">
[4]	MOGI K. Experimental rock mechanics[M]. London：Taylor and Francis，2007：32-48. " target="_blank">
[10]	尤明庆. 基于粘接和摩擦特性的岩石变形破坏的研究[J]. 地质力学学报，2005，11(3)：288-292.(YOU Mingqing. Study of deformation and failure of rock based on properties of cohesion and friction[J]. Journal of Geomechanics，2005，11(3)：288-292.(in Chinese)) " target="_blank">
[16]	GAO Q，TAO J，HU J，et al. Laboratory study on the mechanical behaviors of an anisotropic shale rock[J]. Journal of Rock Mechanics and Geotechnical Engineering，2015，7(2)：213-219. " target="_blank">
[22]	GOWD T N，RUMMEL F. Effect of confining pressure on the fracture behavior of a porous rock[J]. International Journal of Rock Mechanics and Mining Sciences，1980，17(2)：225-229. " target="_blank">
[28]	SRIAPAI T. True triaxial compressive strengths of Mara Sarakham rock salt[M. S. Thesis][D]. Thailand：Suranaree University of Technology，2010. " target="_blank">
[34]	尤明庆，苏承东. 大理岩试样循环加载强化作用的试验研究[J]. 固体力学学报，2008，29(1)：66-72.(YOU Mingqing，SU Chengdong. Experimental study on strengthening of marble specimen in cyclic loading of uniaxial or pseudo-triaxial compression[J]. Chinese Journal of Solid Mechanics，2008，29(1)：66-72.(in Chinese)) " target="_blank">
[8]	韩建新，李术才，李树忱，等. 贯穿裂隙岩体强度和破坏的模型研究[J]. 岩土力学，2011，32(增2)：178-184.(HAN Jianxin，LI Shucai，LI Shuchen，et al. Model study of strength and failure modes of rock mass with persistent cracks[J]. Rock and Soil Mechanics，2011，32(Supp.2)：178-184.(in Chinese)) " target="_blank">
[18]	DUVA S，ALONSO E E，SCAVIA C. A permafrost test on intact gneiss rock[J]. International Journal of Rock Mechanics and Mining Sciences，2015，77：142-151. " target="_blank">
[20]	梁昌玉，吴树仁，李晓. 中低应变率范围内单轴压缩花岗岩断口细-微观特征研究[J]. 岩石力学与工程学报，2015，34(增1)： 2 977-2 986.(LIANG Changyu，WU Shuren，LI Xiao. Research on micro-meso characteristics of granite fracture under uniaxial compression at low and intermediate strain rates[J]. Chinese Journal of Rock Mechanics and Engineering，2015，34(Supp.1)：2 977-2 986.(in Chinese)) " target="_blank">
[30]	尤明庆，苏承东，李小双. 损伤岩石试样的力学特性与纵波速度关系研究[J]. 岩石力学与工程学报，2008，27(3)：458-467.(YOU Mingqing，SU Chengdong，LI Xiaoshuang. Study on relation between mechanical properties and longitudinal wave velocities for damaged rock specimens[J]. Chinese Journal of Rock Mechanics and Engineering，2008，27(3)：458-467.(in Chinese))
[32]	BAHRANI N，KAISER P K，VALLEY B. Distinct element method simulation of an analogue for a highly interlocked，non-persistently jointed rockmass[J]. International Journal of Rock Mechanics and Mining Sciences，2014，71：117-130. " target="_blank">
[25]	PATERSON M S. Experimental deformation and faulting in Wombeyan marble[J]. Bulletin of the Geological Society of America，1958，69(4)：465-476. " target="_blank">
[27]	CARTER B J，DUNCAN S E J，LAJTAI E Z. Fitting strength criteria to intact rock[J]. Geotechnical and Geological Engineering，1991，9(1)：73-81. " target="_blank">
[31]	ROSENGREN K J，JAEGER J C. The mechanical properties of an interlocked low-porosity aggregate[J]. Geotechnique，1968，18(3)：317-326. " target="_blank">
[33]	吴刚，翟松韬，李玉寿，等. 高温下大理岩受压破坏的细观结构分析[J]. 岩石力学与工程学报，2012，31(增2)：3 579-3 585.(WU Gang，ZHAI Songtao，LI Yushou，et al. Mesostructure investigation on marbles under uniaxial compression at high temperatures[J]. Chinese Journal of Rock Mechanics and Engineering，2012，31(Supp.2)：3 579-3 585.(in Chinese)) " target="_blank">
[35]	杨更社，奚家米，李慧军，等. 三向受力条件下冻结岩石力学特性试验研究[J]. 岩石力学与工程学报，2010，29(3)：459-564.(YANG Gengshe，XI Jiami，LI Huijun，et al. Experimental study of rock mechanical properties under triaxial compressive and frozen conditions[J]. Chinese Journal of Rock Mechanics and Engineering，2010，29(3)：459-564.(in Chinese))