Rock and Soil Mechanics ›› 2023, Vol. 44 ›› Issue (2): 541-551.doi: 10.16285/j.rsm.2022.0102

• Fundamental Theroy and Experimental Research • Previous Articles     Next Articles

Effect of shear rate on shear mechanical properties of rock-like joints under different boundary conditions

TIAN Shi-xuan1, GUO Bao-hua1, 2, SUN Jie-hao1, CHENG Tan1   

  1. 1. School of Energy Science and Engineering, Henan Polytechnic University, Jiaozuo, Henan 454000, China; 2. The Collaborative Innovation Center of Coal Safety Production of Henan Province, Henan Polytechnic University, Jiaozuo, Henan 454000, China
  • Received:2022-01-24 Accepted:2022-03-15 Online:2023-02-10 Published:2023-02-17
  • Supported by:
    This work was supported by the National Natural Science Foundation of China (51904092), the Fundamental Research Funds for the Universities of Henan Province (NSFRF180336, NSFRF210303), the Natural Science Foundation of Henan Province (202300410183) and the Key Scientific Research Projects of Colleges and Universities in Henan Province (21A440003).

PDF (Chinese)

204

Abstract: In order to study the effect of shear rate on the shear mechanical properties of rock joints under different boundary conditions, RDS-200 rock joint shear test system was used to carry out direct shear tests with five different shear rates under two boundary conditions including constant normal stress and constant normal stiffness on artificially cast irregular rock-like joints with the same joint morphology. The experimental results are as follows. (1) Under the constant normal stress boundary condition and a same normal stress, the pre-peak shear stiffness of rock-like joints decreases with a decreasing rate, and the peak shear strength and residual shear strength decrease logarithmically with the increase of shear rate; in addition, the cohesion of rock-like joints increases, and the internal friction angle decreases logarithmically with the increase of shear rate. (2) Under the constant normal stiffness boundary condition and a same normal stress, the pre-peak shear stiffness of rock-like joints decreases with a decreasing rate, the peak shear strength decreases logarithmically, and the residual shear strength increases first and then decreases under higher normal stress with an increase of shear rate; moreover, the cohesion of rock-like joints decreases and the internal friction angle increases logarithmically with an increase of shear rate. (3) Compared with the constant normal stress boundary condition, the cohesion force of the rock-like joint increases by 115.85% on average, and the internal friction angle decreases by 8.44% on average under the constant stiffness boundary condition; the pre-peak shear stiffness, the peak shear strength and the residual shear strength of the rock-like joint increase by 11.96%, 19.47% and 32.32% on average, respectively, and the peak normal displacement decreases by 40.12% on average under the same initial normal stress and shear rate. The research results can provide some references for the shear instability evaluation of surface and underground engineering rock joints under different shear rates.

Key words: rock mechanics, rock-like joint, shear rate, constant normal stress, constant normal stiffness

CLC Number: 

  • TU 453
[1] SUN Jie-hao, GUO Bao-hua, TIAN Shi-xuan, CHENG Tan, . Shear mechanical properties of rock joints under pre-peak cyclic shearing condition [J]. Rock and Soil Mechanics, 2022, 43(S2): 52-62.
[2] 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.
[3] CEN Duo-feng, LIU Chang, HUANG Da. Tensile-shear mechanical property of limestone bedding planes and effect of bedding plane undulation [J]. Rock and Soil Mechanics, 2022, 43(S1): 77-87.
[4] LI Jia-ping, ZHU Ke-chao, ZHOU Xuan, CHEN Yan-li, LI Yu-yang, MA Wen-bo, . Rheological properties of REY-rich deep-sea sediments [J]. Rock and Soil Mechanics, 2022, 43(S1): 348-356.
[5] LIU Xue-wei, LIU Quan-sheng, WANG Zhi-qiang, LIU Bin, KANG Yong-shui, WANG Chuan-bing, . Step by step and combined supporting technique with steel grid frame for soft and fractured rock roadway [J]. Rock and Soil Mechanics, 2022, 43(S1): 469-478.
[6] WANG Gang, SONG Lei-bo, LIU Xi-qi, BAO Chun-yan, LIN Man-qing, LIU Guang-jian, . Shear fracture mechanical properties and acoustic emission characteristics of discontinuous jointed granite [J]. Rock and Soil Mechanics, 2022, 43(6): 1533-1545.
[7] TANG Xu-hai, XU Jing-jing, ZHANG Yi-heng, HE Qi, WANG Zheng-zhi, ZHANG Guo-ping, LIU Quan-sheng, . Determining mechanical parameters of asteroid rocks using NWA13618 meteorites and microscopic rock mechanics experiment [J]. Rock and Soil Mechanics, 2022, 43(5): 1157-1163.
[8] JIANG Yue, ZHOU Hui, LU Jing-jing, GAO Yang, . True triaxial test on hollow cylindrical sandstone [J]. Rock and Soil Mechanics, 2022, 43(4): 932-944.
[9] WANG Pei-tao, LIU Zhi-chao, MA Chi, PENG A-xiao, REN Fen-hua, CAI Mei-feng, . Investigation of fast identification of joint traces information of rock mass based on Hough detection method and its application [J]. Rock and Soil Mechanics, 2022, 43(10): 2887-2897.
[10] CHENG Tan, GUO Bao-hua, SUN Jie-hao, TIAN Shi-xuan, SUN Chong-xuan, CHEN Yan, . Establishment of constitutive relation of shear deformation for irregular joints in sandstone [J]. Rock and Soil Mechanics, 2022, 43(1): 51-64.
[11] HUANG Na, JIANG Yu-jing, CHENG Yuan-fang, LIU Ri-cheng, . Experimental and numerical study of hydraulic properties of three-dimensional rough fracture networks based on 3D printing technology [J]. Rock and Soil Mechanics, 2021, 42(6): 1659-1668.
[12] QI Fei-fei, ZHANG Ke, XIE Jian-bin, . Fracturing mechanism of rock-like specimens with different joint densities based on DIC technology [J]. Rock and Soil Mechanics, 2021, 42(6): 1669-1680.
[13] WU Dong-yang, YU Li-yuan, SU Hai-jian, WU Jiang-yu, LIU Ri-cheng, ZHOU Jian. Experimental study and PFC3D simulation on crack propagation of fractured rock-like specimens with bolts under uniaxial compression [J]. Rock and Soil Mechanics, 2021, 42(6): 1681-1692.
[14] 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.
[15] LIU Xiang-hua, ZHANG Ke, LI Na, QI Fei-fei, YE Jin-ming, . Quantitative identification of the failure behavior of the 3D printed rock-like specimen with one hole and two flaws [J]. Rock and Soil Mechanics, 2021, 42(11): 3017-3028.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
[1] YAO Yang-ping, HOU Wei. Basic mechanical behavior of soils and their elastoplastic modeling[J]. , 2009, 30(10): 2881 -2902 .
[2] XU Jin-ming, QIANG Pei, ZHANG Peng-fei. Texture analysis of photographs of silty clay[J]. , 2009, 30(10): 2903 -2907 .
[3] XIANG Tian-bing, FENG Xia-ting, CHEN Bing-rui, JIANG Quan, ZHANG Chuan-qing. Rock failure mechanism and true triaxial experimental study of specimens with single structural plane under three-dimensional stress[J]. , 2009, 30(10): 2908 -2916 .
[4] SHI Yu-ling, MEN Yu-ming, PENG Jian-bing, HUANG Qiang-bing, LIU Hong-jia. Damage test study of different types structures of bridge decks by ground-fissure[J]. , 2009, 30(10): 2917 -2922 .
[5] XIA Dong-zhou, HE Yi-bin, LIU Jian-hua. Study of damping property and seismic action effect for soil-structure dynamic interaction system[J]. , 2009, 30(10): 2923 -2928 .
[6] XU Su-chao, FENG Xia-ting, CHEN Bing-rui. Experimental study of skarn under uniaxial cyclic loading and unloading test and acoustic emission characteristics[J]. , 2009, 30(10): 2929 -2934 .
[7] ZHANG Li-ting, QI Qing-lan, WEI Jing HUO Qian, ZHOU Guo-bin. Variation of void ratio in course of consolidation of warping clay[J]. , 2009, 30(10): 2935 -2939 .
[8] ZHANG Qi-yi. Study of failure patterns of foundation under combined loading[J]. , 2009, 30(10): 2940 -2944 .
[9] YI Jun, JIANG Yong-dong, XUAN Xue-fu, LUO Yun, ZHANG Yu. A liquid-solid dynamic coupling modelof ultrasound enhanced coalbed gas desorption and flow[J]. , 2009, 30(10): 2945 -2949 .
[10] TAO Gan-qiang, YANG Shi-jiao, REN Feng-yu. Experimental research on granular flow characters of caved ore and rock[J]. , 2009, 30(10): 2950 -2954 .
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