考虑中主应力的常用破坏准则适用性研究

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Abstract According to the five most common failure criteria considering the influence of intermediate principal stress，the corresponding internal friction angle expressions considering the influence of intermediate principal stress are deduced. The relationships between internal friction angle and intermediate principal stress coefficient under true triaxial stress are established；and it is a new perspective of discussing the influence law of intermediate principal stress. Based on the comparison with the true triaxial test results of gravelly soil，dense sand and loess，the reflection degree of the intermediate principal stress considered in each criterion is studied and the applicability is discussed with the quantitative analysis of standard deviation. The study results show that the five criteria reflect intermediate principal stress to different extents. The fitting effect of Drucker-Prager criterion is the worst and that of modified Lade-Duncan criterion is the best，while the fitting effects of the other three failure criteria are almost the same. Different criteria should be chosen for different materials.

Key words： soil mechanics intermediate principal stress failure criteria true triaxial stress internal friction angle standard deviation

Received: 13 May 2010

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https://rockmech.whrsm.ac.cn/EN/Y2011/V30/I2/327

[1] 卢肇钧. 黏性土抗剪强度研究的现状与展望[J]. 土木工程学报，1999，32(4)：3–9.(LU Zhaojun. Problems on the research of shear strength of clayey soils[J]. China Civil Engineering Journal，1999，32(4)：3–9.(in Chinese)) [2] HABIMAN J，LABIOUSE V. Geomechanical characterisation of cataclastic rocks：experience from the Cleuson-Dixence project[J]. International Journal of Rock Mechanics and Mining Sciences，2002，39(6)：677–693. [3] 方开泽. 土的破坏准则——考虑中主应力的影响[J]. 华东水利学院学报，1986，14(2)：70–81.(FANG Kaize. Failure criterion of soil— influence of intermediate principal stress[J]. Journal of East China Technical University of Water Resources，1986，14(2)：70–81.(in Chinese)) [4] 俞茂宏. 岩土类材料的统一强度理论及其应用[J]. 岩土工程学报，1994，16(2)：1–9.(YU Maohong. Unified strength theory for geomaterials and its applications[J]. Chinese Journal of Geotechnical Engineering，1994，16(2)：1–9.(in Chinese)) [5] 殷宗泽，赵航. 中主应力对土体本构关系的影响[J]. 河海大学学报，1990，18(5)：54–61.(YIN Zongze，ZHAO Hang. Effect of intermediate principal stress on constitutive relationship[J]. Journal of Hohai University，1990，18(5)：54–61.(in Chinese)) [6] HAIMSON B，RUDNICKI W. The effect of the intermediate principal stress on fault formation and fault angle in siltstone[J]. Journal of Structural Geology，2010，32(11)：1 701–1 711. [7] PRASHANT A，DAYAKAR P. Effect of intermediate principal stress on overconsolidated Kaolin clay[J]. Journal of Geotechnical and Geoenvironmental Engineering，2004，130(3)：284–292. [8] 孔德志，朱俊高. 邓肯–张模型几种改进方法的比较[J]. 岩土力学，2004，25(6)：971–974.(KONG Dezhi，ZHU Jungao. Comparison of several methods for improving Duncan-Chang model[J]. Rock and Soil Mechanics，2004，25(6)：971–974.(in Chinese)) [9] 刘金龙，栾茂田，袁凡凡，等. 中主应力对砂土抗剪强度影响的分析[J]. 岩土力学，2005，26(12)：1 931–1 935.(LIU Jinlong，LUAN Maotian，YUAN Fanfan，et al. Evaluation of effect of intermediate principal stress on sand shear strength[J]. Rock and Soil Mechanics，2005，26(12)：1 931–1 935.(in Chinese)) [10] 许成顺，栾茂田，何杨，等. 中主应力对饱和松砂不排水单调剪切特性的影响[J]. 岩土力学，2006，27(5)：689–693.(XU Chengshun，LUAN Maotian，HE Yang，et al. Effect of intermediate principal stress on undrained behavior of saturated loose sands under monotonic shearing[J]. Rock and Soil Mechanics，2006，27(5)：689–693.(in Chinese)) [11] MATSUOKA H，NAKAI T. Stress-deformation and strength characteristics of soil under three different principal stresses[C]// Proceedings of Japan Society of Civil Engineers. [S. l.]：[s. n.]，1974：59–70. [12] LADE P V，DUNCAN J M. Elastoplastic stress-strain theory for cohesionless soil[J]. Journal of Geotechnical Engineering Division，1975，101(10)：1 037–1 053. [13] EWY R T. Well bore-stability predictions by use of a modified Lade criterion[J]. SPE Drilling and Completion，1999，14(2)：85–91. [14] MORTARA G. A new yield and failure criterion for geomaterials[J]. Geotechnique，2008，58(2)：125–132. [15] CAI M. Influence of intermediate principal stress on rock fracturing and strength near excavation boundaries—insight from numerical modeling[J]. International Journal of Rock Mechanics and Mining Sciences，2008，45(5)：763–772. [16] MORRIS P，DAVID A F. The importance of the effective intermediate principal stress to fault slip patterns[J]. Journal of Structural Geology，2009，31(9)：950–959. [17] BENZ T，SCHWAB R. A quantitative comparison of six rock failure criteria[J]. International Journal of Rock Mechanics and Mining Sciences，2008，45(7)：1 176–1 186. [18] 殷宗泽. 土工原理[M]. 北京：中国水利水电出版社，2007.(YIN Zongze. Principle of soil mechanics[M]. Beijing：China Water Power Press，2007.(in Chinese)) [19] 施维成，朱俊高，刘汉龙. 中主应力对砾石料变形和强度的影响[J]. 岩土工程学报，2008，30(10)：1 449–1 453.(SHI Weicheng，ZHU Jungao，LIU Hanlong. Influence of intermediate principal stress on deformation and strength of gravel[J]. Chinese Journal of Geotechnical Engineering，2008，30(10)：1 449–1 453.(in Chinese)) [20] 方开泽. 土的力学强度理论[M]. 西安：西安交通大学，1964.(FANG Kaize. Soil mechanical strength theory[M]. Xi?an：Xi?an Jiaotong University，1964.(in Chinese))