Rock and Soil Mechanics ›› 2023, Vol. 44 ›› Issue (S1): 603-611.doi: 10.16285/j.rsm.2022.1156

• Geotechnical Engineering • Previous Articles     Next Articles

Unity of three types of energy catastrophe criteria for slope failure

HUA Cheng-ya, YAO Lei-hua   

  1. School of Engineering and Technology, China University of Geosciences (Beijing), Beijing 100083, China
  • Received:2022-07-26 Accepted:2022-12-30 Online:2023-11-16 Published:2023-11-19
  • Supported by:
    This work was supported by the National Natural Science Foundation of China (41807228).

PDF (Chinese)

73

Abstract: The research on the failure criterion for the strength reduction method (SRM) is a hot issue in the field of slope stability analysis. Three types of commonly used failure criteria, namely, the marked displacement mutation criterion, the plastic zone penetration criterion and the calculation program nonconvergence criterion are considered in correspondence with three types of energy catastrophe criteria, namely, the energy catastrophe criterion for gravity potential loss, the catastrophe criterion of dissipated energy increment and the catastrophe criterion of kinetic energy increment, respectively. To unify the three types of energy catastrophe criteria, a new failure criterion-variational value criterion for the SRM was proposed based on the principle of minimum potential energy. The calculation formulas of the second-order variational value of the total potential energy of a numerical model were derived. A method for applying variation was found. A variational value calculation procedure was written. Then, the process of judging the stability or instability of the model based on the positive or negative of the variational value was given. The unity of the variational value criterion and the three types of energy catastrophe criteria was verified through a typical slope example. The generality of the unity of the variational value criterion and the three types of energy catastrophe criteria was discussed by changing the typical parameters of the numerical model, such as mesh density, slope angle and slope height. It is shown that the results calculated by the variational value criterion are close to those calculated by the three types of energy catastrophe criteria, with the relative error of less than 5%. The variational value criterion unifies the three types of energy catastrophe criteria, and provides a mechanical explanation for the unity of the three types of energy catastrophe criteria.

Key words: slope, strength reduction method, failure criterion, energy catastrophe criteria, principle of minimum potential energy

CLC Number: 

  • TU 433
[1] ZHAO Ying-xiao, HE Wei-peng, DING Xiao-ying, ZHAN Jun, HU Xia-song, LIU Chang-yi, MIAO Xiao-xing, WANG Yan-xiu, LU Hai-jing, XING Guang-yan, LI Hua-tan, ZHANG Pei-hao. Relationship between resistivity and soil physical and mechanical properties of herbaceous slopes in the loess area of Xining Basin [J]. Rock and Soil Mechanics, 2024, 45(2): 477-488.
[2] WANG Tong, LIU Xian-feng, YUAN Sheng-yang, JIANG Guan-lu, HU Jin-shan, SHAO Zhu-jie, TIAN Shi-jun. Large-scale shaking table test on the seismic response of dip and anti-dip layered fractured structural slopes [J]. Rock and Soil Mechanics, 2024, 45(2): 489-501.
[3] LIU Xin-rong, WANG Hao, GUO Xue-yan, LUO Xin-yang, ZHOU Xiao-han, XU Bin, . Stability of typical perilous rock bank slope considering the influence of deterioration of rock mass in fluctuation belt [J]. Rock and Soil Mechanics, 2024, 45(2): 563-576.
[4] QU Xiao-lei, ZHANG Yun-kai, CHEN You-ran, CHEN You-yang, QI Cheng-zhi, . Stability analysis of fractured rock slope based on seepage-deformation coupling model using numerical manifold method [J]. Rock and Soil Mechanics, 2024, 45(1): 313-324.
[5] FENG Hai-zhou, JIANG Guan-lu, HE Zi-lei, GUO Yu-feng, HU Jin-shan, LI Jie, YUAN Sheng-yang, . Dynamic response characteristics of tunnel portal slope reinforced by prestressed anchor sheet-pile wall [J]. Rock and Soil Mechanics, 2023, 44(S1): 50-62.
[6] ZHU Ze-qi, TIAN Kai-wei, XU Qi-zhong, CUI Lan, SHENG Qian, . Research on crack initiation mechanism and critical water pressure of basalt under hydraulic coupling [J]. Rock and Soil Mechanics, 2023, 44(S1): 83-90.
[7] GOU Yong-ping, YE Qiong-yao, WEI Li-de, SI Jia-chen, . Study on ground fracturing of the slope in front of heading face of Yangda tunnel [J]. Rock and Soil Mechanics, 2023, 44(S1): 548-560.
[8] SUN Qian-cheng, XU Xiao, LIU Sheng, XU Zhi-hua, HE Yu-ming, GUO Hao-sen, ZHANG Guo-dong. . Borehole imaging characteristics and quality evaluation methods of clastic rock slope in Three Gorges Reservoir area [J]. Rock and Soil Mechanics, 2023, 44(S1): 581-592.
[9] WANG Zhi-ying, GUO Ming-zhu, ZENG Jin-yan, WANG Chen, LIU Huang. Experimental study on dynamic response of bedding rock slope with weak interlayer under earthquake [J]. Rock and Soil Mechanics, 2023, 44(9): 2566-2578.
[10] XU Bin, LIU Xin-rong, ZHOU Xiao-han, LIANG Yue, ZHONG Zu-liang, LIU Jun, DENG Zhi-yun, . Dynamic stability analysis of rock slope considering the strength vibration degradation of through-type rock discontinuities [J]. Rock and Soil Mechanics, 2023, 44(8): 2419-2431.
[11] ZHANG Yuan-sheng, LEI Yun-chao, QIANG Xiao-jun, WU Dong-dong, WANG Dong-po, WANG Ji-hua, . Centrifugal model test of slope reinforced by multi-row micro-pile frame structure [J]. Rock and Soil Mechanics, 2023, 44(7): 1983-1994.
[12] CAO Jia-qi, WANG Hong-xin, WANG Ping, SUN De-an, . A method for evaluating safety of civil air defense structure based on load structure method and strength reduction method [J]. Rock and Soil Mechanics, 2023, 44(7): 2105-2114.
[13] LIU Guo-feng, FENG Kun, YAN Chang-gen, FENG Guang-liang, XU Ding-ping, ZHOU Chi, . Probabilistic evaluation of excavation unloading response of rock slope considering the uncertainty of mechanical parameters [J]. Rock and Soil Mechanics, 2023, 44(7): 2115-2128.
[14] SHEN Hui, LIU Ya-qun, LIU Bo, LI Hai-bo, . Numerical study on the amplification effect of rock slopes under oblique incidence of seismic waves [J]. Rock and Soil Mechanics, 2023, 44(7): 2129-2142.
[15] JI Yu-kun, WANG Qin-ke, ZHAO Guo-liang, ZHANG Jian, MA Jian-lin, . Model test and numerical simulation of vertical bearing capacity and deformation characteristics of rock-socketed uplift pile in sloped ground [J]. Rock and Soil Mechanics, 2023, 44(6): 1604-1614.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] YE Xiao-ping,SUN Qiang, WANG Yuan-yuan, LI Hou-en2, XUE Lei. A modified hypoplastic constitutive model for clay[J]. , 2010, 31(4): 1099 -1102 .
[2] QIAN Jian-gu, Lü Xi-lin, HUANG Mao-song. Softening characteristics of soils and constitutive modeling under plane strain condition[J]. , 2009, 30(3): 617 -622 .
[3] LI Xin-ping, MENG Jian, XU Peng-cheng. Study of blasting seismic effects of cable shaft in Xiluodu hydropower station[J]. , 2011, 32(2): 474 -480 .
[4] ZHANG Qi-yi, LUAN Mao-tian. Ultimate bearing capacity of strip footings on inhomogeneous soil foundation under combined loading[J]. , 2009, 30(5): 1281 -1286 .
[5] ZHAO Bao-you, MA Zhen-yue, LIANG Bing, JIN Chang-yu. Seismic analysis of underground structures based on damaged plasticity model[J]. , 2009, 30(5): 1515 -1521 .
[6] CHANG Lin-yue,WANG Jin-chang,ZHU Xiang-rong. An analytical solution of 1-D finite strain consolidation of saturated soft clay under multistep linear loading[J]. , 2009, 30(8): 2343 -2347 .
[7] CHANG Fang-qiang ,JIA Yong-gang. Liquefaction characteristics of silts with different strengths at Yellow River estuary[J]. , 2011, 32(9): 2692 -2696 .
[8] LIAN Ke-nan , MU Lin-long , HUANG Mao-song , LI Da-jun . Numerical analysis of piled beam-raft foundation of third-phrase project of Guohua Tongliao wind farms[J]. , 2012, 33(S1): 290 -296 .
[9] WANG Guang-jin ,YANG Chun-he ,KONG Xiang-yun ,LIU Tian-ning . Research on fragmentation distribution and shear strength parameters of accumulate granulae with superhigh bench dumping site[J]. , 2012, 33(10): 3087 -3092 .
[10] HONG Wu ,ZHOU Jian-nan ,XU Ying ,JIN Feng-nian ,FAN Hua-lin . Research on distribution laws of blast load on arch structure[J]. , 2012, 33(11): 3407 -3413 .
Copyright © Rock and Soil Mechanics, All Rights Reserved.
Tel: 027-87198484, 87199252, 87199253, 87198752 E-mail: ytlx@whrsm.ac.cn
Powered by Beijing Magtech Co. Ltd