Rock and Soil Mechanics ›› 2023, Vol. 44 ›› Issue (4): 1075-1088.doi: 10.16285/j.rsm.2022.0971

• Fundamental Theroy and Experimental Research • Previous Articles     Next Articles

A new theoretical peak shear strength criterion of rock joint based on the directional roughness parameter

CHEN Xi   

  1. Changjiang Survey, Planning, Design and Research Co., Ltd., Wuhan, Hubei 430010, China
  • Received:2022-06-27 Accepted:2022-08-15 Online:2023-04-18 Published:2023-04-28
  • Supported by:
    This work was supported by the National Natural Science Foundation of China (41772308).

PDF (Chinese)

143

Abstract: The joints within the rock mass control the stability of rock engineering. Most of the existing peak shear strength criteria are empirical models, and the sampling effect and anisotropy of shear strength of rock joints have been rarely reported. A total of 5 groups of matched resin molds were prepared based on 3D laser scanning technology and 3D printing technology. A batch of matched mortar joints was duplicated using these molds. A total of 25 groups of the direct shear test were conducted under five constant normal load conditions. A novel theoretical peak shear strength criterion incorporating the newly developed roughness parameters was proposed based on the modified relationship between contact area ratio and threshold apparent dip angles. The proposed criterion was simple and no additional fitting constant was introduced in addition to the roughness parameters. Comparisons between the new criterion and the existing empirical criteria in the literature showed that the new criterion had better accuracy in predicting the shear strength of rock joints. In addition, it was found that the new model was slightly affected by the sampling interval and could capture the anisotropic characteristics of the shear strength of rock joints.

Key words: rough joint, directional roughness, theoretical peak shear strength criterion, sampling interval, anisotropy

CLC Number: 

  • TU452
[1] WANG Zhi-chao, PENG Yi-qin, QIN Yun, TIAN Ying-hui, LUO Guang-cai, . Stress-induced anisotropic subloading surface model for overconsolidated soil based on unified yield criterion [J]. Rock and Soil Mechanics, 2023, 44(7): 1891-1900.
[2] WANG Wei, ZHANG Kuan, CAO Ya-jun, CHEN Chao, ZHU Qi-zhi, . Anisotropic mechanical properties and brittleness evaluation of layered phyllite [J]. Rock and Soil Mechanics, 2023, 44(4): 975-989.
[3] ZHANG Tao, XU Wei-ya, MENG Qing-xiang, WANG Huan-ling, YAN Long, QIAN Kun, . Experimental investigation on the mechanical characteristics of columnar jointed rock mass samples based on 3D printing technology [J]. Rock and Soil Mechanics, 2022, 43(S2): 245-254.
[4] BAO Han, CHEN Zhi-yang, LAN Heng-xing, PEI Run-sheng, WU Fa-quan, YAN Chang-gen, TAO Yue, . Progressive failure strength characteristics of anisotropic rocks caused by mineral directional arrangement: a case of biotite quartz schist [J]. Rock and Soil Mechanics, 2022, 43(8): 2060-2070.
[5] JIANG Zhong-ming, XIAO Zhe-zhen, TANG Dong, HE Guo-fu, XU Wei, . Prediction of water inflow in water-sealed oil storage caverns based on fracture seepage effect [J]. Rock and Soil Mechanics, 2022, 43(4): 1041-1047.
[6] ZHANG Hu-yuan, WANG Zhao-ming, ZHU Jiang-hong, ZHOU Guang-ping, . Hydraulic conductivity and anisotropy of hybrid buffer material blocks [J]. Rock and Soil Mechanics, 2022, 43(3): 573-581.
[7] LIU Yang, YU Peng-qiang, XU Shuo. Wave propagation in anisotropic granular materials based on micromorphic continua [J]. Rock and Soil Mechanics, 2022, 43(3): 635-648.
[8] PAN Wen-tao, YANG Wen-bo, WU Fang-yin, HE Chuan, ZHAO Liang-liang, YAO Ren-jie, FU Jian-feng . Layered soft rock simulation based on uniaxial and triaxial tests and direct shear test [J]. Rock and Soil Mechanics, 2022, 43(12): 3437-3452.
[9] SONG Lei-bo, KANG Qian-qian, DU Shi-gui, ZHONG Zhen, WANG Gang, WANG Xing-kai, HAN Guan-sheng, ZHAO Jin-shuai, . Anisotropy mechanism of shear strength based on wear and shear failure evolution of asperities of joint surface [J]. Rock and Soil Mechanics, 2021, 42(9): 2331-2343.
[10] QUE Xiang-cheng, ZHU Zhen-de, NIU Zi-hao, HUANG Hao-nan, . Deformation and strength anisotropy of columnar jointed rock mass with different cross-sectional shapes [J]. Rock and Soil Mechanics, 2021, 42(9): 2416-2426.
[11] SHI Zhen-hao, HUANG Mao-song, NI Yu-ping, . Intergranular-strain based constitutive model for saturated clay with anisotropic small-strain stiffness [J]. Rock and Soil Mechanics, 2021, 42(4): 1036-1044.
[12] CHEN Xi, ZENG Ya-wu, . A new three-dimensional roughness metric based on Grasselli’s model [J]. Rock and Soil Mechanics, 2021, 42(3): 700-712.
[13] LIU Bing-heng, KONG Ling-wei, SHU Rong-jun, LI Tian-guo, . Mechanical properties and strength criterion of Zhanjiang structured clay in three-dimensional stress state [J]. Rock and Soil Mechanics, 2021, 42(11): 3090-3100.
[14] FENG Da-kuo, ZHANG Jian-min, . Effect of normal stress on cyclic simple-shear behavior of gravel-structure interface [J]. Rock and Soil Mechanics, 2021, 42(1): 18-26.
[15] ZOU Yu-xiong, MA Gang, LI Yi-Ao, CHEN Yuan, ZHOU Wei, QIU Huan-feng, . Impact of rotation resistance on fabric of granular materials [J]. Rock and Soil Mechanics, 2020, 41(8): 2829-2838.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] YU Xiao-jun,SHI Jian-yong,XU Yang-bin. Modelling disturbed state and anisotropy of natural soft clays[J]. , 2009, 30(11): 3307 -3312 .
[2] GAO Wei. Analysis of stability of rock slope based on ant colony clustering algorithm[J]. , 2009, 30(11): 3476 -3480 .
[3] XU Bin,YIN Zong-ze,LIU Shu-li. Experimental study of factors influencing expansive soil strength[J]. , 2011, 32(1): 44 -50 .
[4] DAI Ren-ping,GUO Xue-bin,GONG Quan-mei,PU Chuan-jin,ZHANG Zhi-cheng. SHPB test on blasting damage protection of tunnel surrounding rock[J]. , 2011, 32(1): 77 -83 .
[5] YANG Yang, YAO Hai-lin, LU Zheng. Model of subgrade soil responding to change of atmosphere under evaporation and its influential factors[J]. , 2009, 30(5): 1209 -1214 .
[6] DENG Ya-hong,XIA Tang-dai,PENG Jian-bing,LI Xi-an,HUANG Qiang-bing. Research on shear particle system method of natural frequency of horizontal layered soils[J]. , 2009, 30(8): 2489 -2494 .
[7] . [J]. , 2011, 32(7): 2236 -2240 .
[8] CHU Xi-hua. A generation method for numerical specimen of granular materials by sort of coordinates[J]. , 2011, 32(9): 2852 -2855 .
[9] WANG Zhong-fu , LIU Han-dong , JIA Jin-lu , HUANG Zhi-quan , JIANG Tong . Experimental study of vertical bearing capacity behavior of large-diameter bored cast-in-situ long pile[J]. , 2012, 33(9): 2663 -2670 .
[10] LIN Lu-sheng , JIANG Gang , BEI Shi-wei , LIU Zu-de . Statistical analysis method of taking value for shear strength parameters of soil mass[J]. , 2003, 24(2): 277 -280 .
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