Predicting the Mechanical Properties of Bimrocks with High Rock Block Proportions Based on Resonance Testing Technology and Damage Theory

Block-in-matrix-rocks (bimrocks) are very complicated geological masses that cause many challenging problems during the design and construction of engineering projects, such as parameter determination and landsliding. Successful engineering design and construction depends on a suitable constitutive model and reliable design parameters for geological masses. In this paper, the vibration attenuation signal of welded bimrocks was obtained and studied using resonance test technology. Combined with a uniaxial compression test, a constitutive model was proposed to describe the mechanical behavior of welded bimrocks. On this basis, the relations between the dynamic elastic modulus and the physical parameters of bimrocks were established, which included macroscopic mechanical parameters and damage constitutive parameters. Consequently, a new technological process was proposed to provide quick identification of the mechanical properties of welded bimrocks. The results indicate that the dynamic elastic modulus is highly correlated with the rock block proportion (RBP) and uniaxial compression strength (UCS). It is an effective parameter to predict the strength of the bimrocks with high RBPs. Additionally, the proposed constitutive model, which is based on damage theory, can accurately simulate the strain softening behavior of the bimrocks. Combining the resonant frequency technology and the proposed constitutive model, the complete stress strain curve can be obtained in a rapid and accurate manner, which provides a further guarantee of the stability and safety of underground engineering.

[1]  Wang Xin,et al.  PARTICLE FLOW MODELING MECHANICAL PROPERTIES OF SOIL AND ROCK MIXTURES BASED ON DIGITAL IMAGE , 2010 .

[2]  Chen Jian STUDY ON IN-SITU TESTS OF MECHANICAL CHARACTERISTICS ON SOIL-ROCK AGGREGATE , 2007 .

[3]  C. Tsakmakis,et al.  The Principle of Generalized Energy Equivalence in Continuum Damage Mechanics , 2003 .

[4]  G. Voyiadjis,et al.  A Generalized Hypothesis of Elastic Energy Equivalence in Continuum Damage Mechanics , 2017 .

[5]  Jianjun Ma,et al.  A Stress-Induced Permeability Evolution Model for Fissured Porous Media , 2016, Rock Mechanics and Rock Engineering.

[6]  H. Sonmez,et al.  An approach to predicting the overall strengths of unwelded bimrocks and bimsoils , 2014 .

[7]  G. Zhao,et al.  An elastoplastic damage model for fractured porous media , 2016 .

[8]  J. Lemaître How to use damage mechanics , 1984 .

[9]  P. Moarefvand,et al.  Failure patterns of geomaterials with block-in-matrix texture: experimental and numerical evaluation , 2014, Arabian Journal of Geosciences.

[10]  J. Chaboche,et al.  Mechanics of Solid Materials , 1990 .

[11]  Z. T. Bieniawski,et al.  Rock mechanics design in mining and tunneling , 1984 .

[12]  Yue Zhongqi Digital representation of meso-geomaterial spatial distribution and associated numerical analysis of geomechanics: methods, applications and developments , 2007 .

[13]  Zhong Qi Yue,et al.  Study on the mesostructure and mesomechanical characteristics of the soil–rock mixture using digital image processing based finite element method , 2008 .

[14]  Yu Huoqing STUDY ON FIELD TEST OF ROCK-SOIL AGGREGATE ON RIGHT BANK OF LONGPAN IN TIGER-LEAPING GORGE AREA , 2006 .

[15]  Quan Liu,et al.  A Numerical Study on Travel Time Based Hydraulic Tomography Using the SIRT Algorithm with Cimmino Iteration , 2019, Water.

[16]  S. Mahdevari,et al.  Applying ultrasonic waves to evaluate the volumetric block proportion of bimrocks , 2017, Arabian Journal of Geosciences.

[17]  Edmund Medley,et al.  Orderly Characterization of Chaotic Franciscan Melanges , 2001 .

[18]  Harun Sonmez,et al.  Predicting uniaxial compressive strength and deformation modulus of volcanic bimrock considering engineering dimension , 2016 .

[19]  C. Cremona,et al.  Isotropic continuum damage mechanics for concrete under cyclic loading: Stiffness recovery, inelastic strains and frictional sliding , 2010 .

[20]  Mingfeng Lei,et al.  Experimental and model study on dynamic behaviour and fatigue damage of tunnel invert , 2016 .

[21]  Parviz Moarefvand,et al.  Experimental study of post-peak behavior of bimrocks with high rock block proportions , 2014 .

[22]  John A. Hudson,et al.  Draft ISRM suggested method for the complete stress-strain curve for intact rock in uniaxial compression , 1999 .

[23]  Reza Taherdangkoo,et al.  Modified stem cells algorithm-based neural network applied to bottom hole circulating pressure in underbalanced drilling , 2015 .

[24]  Tikou Belem,et al.  A contribution to understanding the hardening process of cemented pastefill , 2004 .

[25]  Leslie George Tham,et al.  Finite element modeling of geomaterials using digital image processing , 2003 .

[26]  X. Li,et al.  Experimental study on cracking damage characteristics of a soil and rock mixture by UPV testing , 2015, Bulletin of Engineering Geology and the Environment.

[27]  Y. Wang,et al.  Use of X-ray computed tomography to investigate the effect of rock blocks on meso-structural changes in soil-rock mixture under triaxial deformation , 2018 .

[28]  X. Li,et al.  Experimental study of the ultrasonic and mechanical properties of SRM under compressive loading , 2015, Environmental Earth Sciences.

[29]  W. Xu,et al.  Some geomechanical properties of soil–rock mixtures in the Hutiao Gorge area, China , 2007 .

[30]  S. Kahraman,et al.  Analyses of acoustic emission response of a fault breccia in uniaxial deformation , 2010 .

[31]  P. Moarefvand,et al.  Mechanical behavior of bimrocks having high rock block proportion , 2014 .

[32]  D. Boldini,et al.  In situ non-conventional shear tests for the mechanical characterisation of a bimrock , 2010 .

[33]  Jean-Louis Chaboche,et al.  Continuous damage mechanics — A tool to describe phenomena before crack initiation☆ , 1981 .

[34]  W. A. Hustrulid,et al.  Underground mining methods : engineering fundamentals and international case studies , 2001 .

[35]  Nasser Khalili,et al.  A fully coupled flow deformation model for elasto-plastic damage analysis in saturated fractured porous media , 2016 .