A New Prediction Model for Peak Shear Strength of Rock Joints Considering the 3D Morphology Parameters

doi:10.12068/j.issn.1005-3026.2021.11.013

Abstract

Abstract: The apparent dip angle and the distribution parameter are camprehensively analyzed to correct Grasselli’s 3D morphology parameters system as well as get a new prediction model reflecting the shear behavior of rock joints. The single-valued distribution function A^*_θ△* is used as the weight function to calculate the average apparent dip angle. By defining the relative distribution parameters C^*， revealing the control function of distribution parameters on resisting shear. A new peak shear strength prediction model is proposed. Compared with Grasselli’s model， the prediction accuracy of the new model is better verified through 50 sets of published data. The physical and mathematical boundary of distribution parameter C is proposed， and the phenomenon that the value of C from experiments is not less than 1 is explained. The distribution law of apparent dip angle and the composition of initial dilatancy angle are summarized， and the Grasselli’s model is classified into a unified form.The new prediction model has concise parameters， clear physical meaning and mathematical definition， and reveal the shear mechanism of rock joints.

Key words: rock mechanic; rock joint; 3D morphology; peak shear strength; distributed parameter

CLC Number:

TU45

WANG Shu-hong， YIN Hong， ZHANG Ze， WEI Wei. A New Prediction Model for Peak Shear Strength of Rock Joints Considering the 3D Morphology Parameters[J]. Journal of Northeastern University(Natural Science), 2021, 42(11): 1609-1617.

References

[1]Zhang X B，Jiang Q H，Chen N，et al.Laboratory investigation on shear behavior of rock joints and a new peak shear strength criterion［J］.Rock Mechanics and Rock Engineering，2016，49(9): 3495-3512.
[2]Barton N，Choubey V.The shear strength of rock joints in theory and practice［J］.Rock Mechanics and Rock Engineering，1977，10(1):1-54.
[3]Mandelbrot B B.How long is the coast of Britain［J］.Science，1967，156(3775): 636-638.
[4]Grasselli G.Shear strength of rock joints based on quantified surface description［D］.Switzerland:Swiss Federal Institute of Technology，2001.
[5]葛云峰.基于BAP的岩体节理面粗糙度与峰值抗剪强度研究［D］.武汉:中国地质大学(武汉)，2014.(Ge Yun-feng.Research on roughness and peak shear strength for rock discontinuties based on BAP［D］.Wuhan:China University of Geosciences(Wuhan)，2014.)
[6]蔡毅，唐辉明，葛云峰，等.岩体结构面三维粗糙度评价的新方法［J］.岩石力学与工程学报，2017，36(5):1101-1110.(Cai Yi，Tang Min-hui，Ge Yun-feng，et al.A new method for evaluating the roughness of three-dimensional discontinuity surface of rock［J］.Chinese Journal of Rock Mechanics and Engineering.2017，36(5):1101-1110.)
[7]葛云峰，唐辉明，程昊，等.基于直剪试验的岩体结构面表面温度与粗糙度关系研究［J］.工程地质学报，2015(4): 624-633.(Ge Yun-feng，Tang Hui-ming，Cheng Hao，et al.Direct shear tests study for relationship between surface temperature and surface roughness of rock joints［J］.Journal of Engineering Geology，2015(4): 624-633.)
[8]Grasselli G，Egger P.Constitutive law for the shear strength of rock joints based on three-dimensional surface parameters［J］.International Journal of Rock Mechanics and Mining Sciences，2003，40(1):25-40.
[9]Grasselli G，Wirth J，Egger P.Quantitative three-dimensional description of a rough surface and parameter evolution with shearing［J］.International Journal of Rock Mechanics and Mining Sciences，2002，39(6):789-800.
[10]Grasselli G.Manuel rocha medal recipient shear strength of rock joints based on quantified surface description［J］.Rock Mechanics and Rock Engineering，2006，39(4):295.
[11]Xia C C，Tang Z C，Xiao W M，et al.New peak shear strength criterion of rock joints based on quantified surface description［J］.Rock Mechanics and Rock Engineering，2014，47(2):387-400.
[12]唐志成，夏才初，宋英龙，等.Grasselli节理峰值抗剪强度公式再探［J］.岩石力学与工程学报，2012，31(2):356-364.(Tang Zhi-cheng，Xia Cai-chu，Song Ying-long，et al.Discussion about Grasselli′s peak shear strength criterion for rock joints［J］.Chinese Journal of Rock Mechanics and Engineering，2012，31(2):356-364.)
[13]夏才初，唐志成，宋英龙.基于三维形貌参数的偶合节理峰值抗剪强度公式［J］.岩石力学与工程学报，2013，32(sup1): 2833-2839.(Xia Cai-chu，Tang Zhi-cheng，Song Ying-long.A new peak shear strength formula for matching irregular joints based on 3D morphology parameters［J］. Chinese Journal of Rock Mechanics and Engineering，2011，32(supl):2833-2839.)
[14]Tse R，Cruden D M.Estimating joint roughness coefficients［J］.Iternational Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts，1979，16(5): 303-307.
[15]Lee S D，Lee C I，Park Y.Characterization of joint profiles and their roughness parameters［J］.International Journal of Rock Mechanics and Mining Sciences，1997，34(3/4): 174.e1-174.e5.
[16]Zhang G C，Karakus M，Tang H M，et al.A new method estimating the 2D joint roughness coefficient for discontinuity surfaces in rock masses［J］.International Journal of Rock Mechanics and Mining Sciences，2014，72: 191-198.
[17]Sayles R S，Thomas T R.The spatial representation of surface roughness by means of the structure function: a practical alternative to correlation［J］.Wear，1977，42(2): 263-276.
[18]Yu X B，Vayssade B.Joint profiles and their roughness parameters［J］.International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts，1991，28(4): 333-336.
[19]Myers N O.Characterization of surface roughness［J］. Wear， 1962，5(3): 182-189.
[20]Maerz N H，Franklin J A，Bennett C P.Joint roughness measurement using shadow profilometry［J］.International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts，1990，27(5): 329-343.
[21]Tatone B S，Grasselli G.A method to evaluate the three dimensional roughness of fracture surfaces in brittle geomaterials［J］.Review of Scientific Instruments，2009，80(12):181-106.
[22]Liu Q S，Tian Y C，Liu D F，et al.Updates to JRC-JCS model for estimating the peak shear strength of rock joints based on quantified surface description［J］.Engineering Geology，2017，228:282-300.
[23]唐志成，刘泉声，刘小燕.节理的剪切力学性质与含三维形貌参数的剪切强度准则比较研究［J］.岩土工程学报，2014，36(5):873-879.(Tang Zhi-cheng，Liu Quan-sheng，Liu Xiao-yan.Shear behavior of rock joints and comparative study on shear strength criteria with three-dimensional morphology parameters［J］.Chinese Journal of Geotechnical Engineering，2014，36(5):873-879.)
[24]唐志成，夏才初，宋英龙.粗糙节理的峰值抗剪强度准则［J］.岩土工程学报，2013，35(3):571-577.(Tang Zhi-cheng，Xia Cai-chu，Song Ying-long.New peak shear strength criteria for roughness joints［J］.Chinese Journal of Geotechnical Engineering，2013，35(3):571-577.)
[25]Tian Y C，Liu Q S，Liu D F，et al.Updates to Grasselli’s peak shear strength model［J］. Rock Mechanics and Rock Engineering，2018，51(7): 2115-2133.
[26]Yang J，Rong G，Hou D，et al.Experimental study on peak shear strength criterion for rock joints［J］.Rock Mechanics and Rock Engineering，2016，49(3):821-835.
[27]杨洁，荣冠，程龙，等.节理峰值抗剪强度试验研究［J］.岩石力学与工程学报，2015，34(5):884-894.(Yang Jie，Rong Guan，Cheng Long，et al.Experimental study of peak shear strength of rock joints［J］. Chinese Journal of Rock Mechanics and Engineering，2015，34(5):884-894.)
[28]Tatone B S A.Quantitative characterization of natural rock discontinuity roughness in-situ and in the laboratory［D］.Toronto: University of Toronto，2010.
[29]陈曦，曾亚武，孙翰卿，等.基于Grasselli形貌参数的岩石节理初始剪胀角新模型［J］.岩石力学与工程学报，2019，38(1):133-152.(Chen Xi，Zeng Ya-wu，Sun Han-qing，et al.A new model of the initial dilatancy angle of rock joints based on Grasselli’s morphological parameters［J］.Chinese Journal of Rock Mechanics and Engineering，2019，38(1):133-152.)