温度应力对裂隙岩体强度的影响研究

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摘要从断裂力学理论出发，定量分析高于常温的温度场中温度应力作用对含有单条裂隙、单组裂隙以及多组裂隙岩体强度的影响规律。由理论角度，从弹性力学着手，采用解析的方法以等效荷载法，利用叠加原理，将代表性体积单元中单条裂隙温度应力的表达式叠加到代表性体积单元的单条裂隙的结构荷载中，推导岩体裂尖处在一定温度应力作用下断续裂隙介质的细观断裂强度表达式，简便有效地将细观尺度如裂隙长度、方向等与宏观条件如温度、强度有机地结合起来，完善现阶段研究对于裂隙岩体强度表达形式的不足，引出一个能够全面展示宏、细观层面及考虑温度影响因素，综合表达裂隙岩体强度稳定性的探索新思路。最后通过相关试验结果，验证所建立的公式具有较高的可靠性。

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关键词 ：岩石力学, 断裂力学, 温度, 断裂强度, 裂隙

Abstract：Based on the theory of fracture mechanics，influence law of rock strength with single fracture，a set of fracture and multiple sets of fractures under the action of temperature stress caused by the temperature field higher than room temperature field is presented quantitatively. In the view of theoretical point，starting from elasticity mechanics，using the analytical method such as equivalent load method and principle of superposition，the thermal stress expression of a single fracture is added to the structural load expression of a single expression in representative volume element(REV). The micro-fracture strength expression of intermittent fractured media，of which crack tip of rock fracture is affected by certain temperature stress，is deduced. The microscale such as fracture length and fracture direction and so on is combined effectively and organically with the macroconditions such as temperature and strength. The strength expression of fractured rock at this stage has been improved. A exploration of new idea which could demonstrate the macro-，micro-levels and consider temperature factor fully and describe rock stability comprehensively is elicited. At last，the relevant experimental results show that the formula established has high reliability.

Key words： rock mechanics fracture mechanics temperature fracture strength crack

收稿日期: 2011-06-17

引用本文:

张岩1，李宁1，于海鸣2，徐彬3. 温度应力对裂隙岩体强度的影响研究[J]. 岩石力学与工程学报, 2013, 32(s1): 2660-2668.
ZHANG Yan1，LI Ning1，YU Haiming2，XU Bin3. RESEARCH ON INFLUENCE OF THERMAL STRESS ON FRACTURED ROCK MASS STRENGTH. , 2013, 32(s1): 2660-2668.

链接本文:

http://www.rockmech.org/CN/Y2013/V32/Is1/2660

[21]	范景伟，何江达. 含定向闭合断续节理岩体的强度特性[J]. 岩石力学与工程学报，1992，11(2)：190-199.(FAN Jingwei，HE Jiangda. The strength behavior of rock mass containing oriented and closed intermittent joints[J]. Chinese Journal of Rock Mechanics and Engineering，1992，11(2)：190-199.(in Chinese))
[1]	张梅英，袁建新，李廷芥，等. 单轴压缩过程中岩石变形破坏机制[J]. 岩石力学与工程学报，1998，17(1)：1-8.(ZHANG Meiying，YUAN Jianxin，LI Tingjie，et al. Mechanism of deformation and failure for rock in uniaxial compression test[J]. Chinese Journal of Rock Mechanics and Engineering，1998，17(1)：1-8.(in Chinese))
[4]	HOEK E，BIENAWSKI Z T. Brittle fracture propagation in rock under compression[J]. International Journal of Fracture Mechanics，1965，1(3)：137-155. " target="_blank">
[5]	SEGALL P，POLLARD D D. Mechanics of discontinuous faults[J]. Journal of Geophysical Research，1980，85(B8)：4 337-4 350. " target="_blank">
[11]	赵吉东，尹健民，周维垣，等. 节理岩体断烈损伤模型在三峡坝基岩体力学参数模拟和预测中的应用[J]. 岩石力学与工程学报，2002，21(2)：176-179.(ZHAO Jidong，YIN Jianmin，ZHOU Weiyuan，et al. Fracture-damage model of jointed rock mass and its application to the numerical parameters predicting of the dam-bed-rock of the Three Gorges project[J]. Chinese Journal of Rock Mechanics and Engineering，2002，21(2)：176-179.(in Chinese))
[14]	李宁，徐彬，陈飞雄. 冻土路基温度场、变形场和应力场的耦合分析[J]. 中国公路学报，2006，19(3)：1-5.(LI Ning，XU Bin，CHEN Feixiong. Coupling analysis of temperature，deformation and stress field for frozen soil roadbed[J]. China Journal of Highway and Transport，2006，19(3)：1-5.(in Chinese))
[2]	李术才，朱维申. 复杂应力状态下断续节理岩体断裂损伤机制研究及其应用[J]. 岩石力学与工程学报，1999，18(2)：142-146.(LI Shucai，ZHU Weishen. Fracture damage mechanism of discontinuous jointed rock mass under the state of complex stress and its application[J]. Chinese Journal of Rock Mechanics and Engineering，1999，18(2)：142-146.(in Chinese))
[8]	陈文玲，李宁. 含非贯通裂隙岩体介质的损伤模型[J]. 岩土工程学报，2000，22(4)：430-434.(CHEN Wenling，LI Ning. Damage model of the rock mass medium with intermittent cracks[J]. Chinese Journal of Geotechnical Engineering，2000，22(4)：430-434.(in Chinese))
[13]	FREMOND M，MIKKOA M. Thermo-mechanical of freezing soil[C]// Proceedings of the 6th international. Symposium on Ground Freezing. Rotterdam：Balkema，1991：17-24. " target="_blank">
[16]	徐彬，闫娜，李宁，等. 温降对液化石油气储库围岩裂隙开裂影响的数值分析[J]. 岩石力学与工程学报，2011，30(4)：718-726.(XU Bin，YAN Na，LI Ning，et al. Numerical analysis of effect of temperature decreasing on crack of chilled liquefied petroleum gas(LPG) unlined storage cavern[J]. Chinese Journal of Rock Mechanics and Engineering，2011，30(4)：718-726.(in Chinese))
[17]	周小平，王建华，张永兴. 剪应力作用下断续节理岩体的强度特性[J]. 上海交通大学学报，2005，39(5)：719-722.(ZHOU Xiaoping，WANG Jianhua，ZHANG Yongxing. The strength properties of rock masses with intermittent joints under shear stresses[J]. Journal of Shanghai Jiaotong University，2005，39(5)：719-722.(in Chinese)) " target="_blank">
[18]	朱珍德，胡定. 裂隙水压力对岩体强度的影响[J]. 岩土力学，2000，21(1)：64-67.(ZHU Zhende，HU Ding. The effect of interstitial water pressure on rock mass strength[J]. Rock and Soil Mechanics，2000，21(1)：64-67.(in Chinese)) " target="_blank">
[19]	VAN TERZAGHI K. Die Berechnung der Durchassigkeitsziffer des Tones aus dem Verlauf der hydrodynamischen Spannungser- scheinungen[J]. Sitzungsber. Akad. Wiss. Wien Math Naturwiss，Kl. Abt.，1923，132(2A)：105-126. " target="_blank">
[3]	BRACE W F，BOMBOLAKIS E G. A note on brittle crack growth in compression[J]. Journal of Geophysical Research，1963，68(12)：3 709-3 713. " target="_blank">
[6]	李长春，付文生，袁建新，等. 考虑温度效应的岩石损伤内时本构关系[J]. 岩土力学，1991，12(3)：1-10.(LI Changchun，FU Wensheng，YUAN Jianxin，et al. Rock material damage constitutive equations based on endochronic theory concerning temperature effect[J]. Rock and Soil Mechanics，1991，12(3)：1-10.(in Chinese)) " target="_blank">
[15]	唐世斌，唐春安，李连崇，等. 脆性材料热-力耦合模型及热破裂数值分析方法[J]. 计算力学学报，2009，26(2)：172-178.(TANG Shibin，TANG Chun?an，LI Lianchong，et al. Numerical approach on the thermo-mechanical coupling of brittle material[J]. Chinese Journal of Computational Mechanics，2009，26(2)：172-178.(in Chinese)) " target="_blank">
[20]	周群力. 岩石压剪断裂判据及其应用[J]. 岩土工程学报，1987，9(3)：73-78.(ZHOU Qunli. Compress shear fracture criterion of rock and its application[J]. Chinese Journal of Geotechnical Engineering，1987，9(3)：73-78.(in Chinese)) " target="_blank">
[7]	MIAO S K，WANG M L. An elastoplastic damage model for concrete subjected to sustained high temperatures[J]. International Journal of Damage Mechanics，1997，6(2)：195-216 " target="_blank">
[9]	李宁，陈文玲，张平. 动荷载作用下非贯通裂隙介质的强度性质[J]. 自然科学进展，2000，10(11)：1 029-1 033.(LI Ning，CHEN Wenling，ZHANG Ping. Coupled temperature-seepage- deformation model of the jointed rock masses[J]. Progress in Natural Science，2000，10(11)：1 029-1 033.(in Chinese)) " target="_blank">
[10]	李宁，张平，陈蕴生. 裂隙岩体试验研究进展与思考[C]// 中国岩石力学与工程学会第七次学术大会论文集. 西安：[s. n.]，2002：63-69.(LI Ning，ZHANG Ping，CHEN YunSheng. Progress and thoughts on the experiments study of the cracked rock mass[C]// Proceedings of the 7th Chinese Society of Rock Mechanics and Engineering Academic Conference. Xi?an：[s. n.]，2002：63-69.(in Chinese)) " target="_blank">
[12]	DUQUENNOI C，FREMOND M，LEVY M. Modeling of thermal soil behaviour[C]// VVT Symposium 94. Saariselka?：[s. n.]，1989：895-915. " target="_blank">