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Rock Mechanics and Rock Engineering
Erschienen in: Rock Mechanics and Rock Engineering 1/2022

13.10.2021 | Original Paper

Digital Evaluation of Micro-Pore Water Effects on Mechanical and Damage Characteristics of Sandstone Subjected to Uniaxial, Cyclic Loading–Unloading Compression by 3D Reconstruction Technique

verfasst von: Xiao-Ping Zhou, Da-Chao Jiang, Zhi Zhao

Erschienen in: Rock Mechanics and Rock Engineering | Ausgabe 1/2022

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Abstract

Water existing in micro-pores has tremendous influences on the mechanical and damage characteristics of rocks. This study aims to investigate the micro-pore water effects on the mechanical and damage characteristics of sandstone subjected to different loading configurations, in which four groups of sandstone specimens with different water contents were applied in the conventional uniaxial compression, cyclic loading and unloading experiments. X-ray CT imaging and 3D reconstruction techniques are applied to capture the cracking behaviors under uniaxial compression and cyclic loading–unloading. The digital microstructural variables are defined to describe the characteristics of microstructures and evolution of micro-pore water in rocks. Numerical simulation is applied to study the micro-pore effects on the mechanical properties of rocks. Results show that the specimens are mainly failed by the mixture modes of primary shear cracks and secondary tensile cracks. With increasing mass water content, the uniaxial compressive strength (UCS) decreases and the pore size first decreases, then increases, and finally decreases due to the infiltration of water phase in microstructures. The water content has a negative effect on the mechanical properties, in which the digital porosity and volumetric water content and the micro-pore water saturation have a negative effect on the UCS. In addition, the damage becomes easier near the pores with larger sizes.
Vorheriger Artikel Estimation of Unconfined Compressive Strength (UCS) of Carbonate Rocks by Index Mechanical Tests and Specimen Size Properties: Central Alborz Zone of Iran
Nächster Artikel Microscopic Modeling of Frictional Response of Smooth Joint Under Normal Cyclic Loading

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Literatur
Alneasan M, Behnia M, Bagherpour R (2019) Analytical investigations of interface crack growth between two dissimilar rock layers under compression and tension. Eng Geol 259:105188CrossRef
Bi J, Zhou XP (2017) A novel numerical algorithm for simulation of initiation, propagation and coalescence of flaws subject to internal fluid pressure and vertical stress in the framework of general particle dynamics. Rock Mech Rock Eng 50(7):1833–1849CrossRef
Cao S, Yilmaz E, Yin ZY, Xue GL, Song WD, Sun LJ (2021) CT scanning of internal crack mechanism and strength behavior of cement-fiber-tailings matrix composites. Cement Concrete Compos 116:103865CrossRef
Duan YT, Li X, Zheng B, He JM, Hao J (2019) Cracking evolution and failure characteristics of longmaxi shale under uniaxial compression using real-time computed tomography scanning. Rock Mech Rock Eng 52(9):3003–3015CrossRef
Haeri H, Marji MF, Shahriar K, Moarefvand P (2015) On the HDD analysis of micro crack initiation, propagation, and coalescence in brittle materials[J]. Arab J Geosci 8(5):2841–2852CrossRef
Hatheway AW (2009) The complete ISRM suggested methods for rock characterization, testing and monitoring; 1974–2006. Environ Eng Geosci 15(1):47–48CrossRef
He CL, Chen DY, Xiao JG, Liu L, Guo ZX (2021) Experimental study of crack propagation and failure around a horseshoe tunnel during nearby blasting. Int J Rock Mechan Min Sci 139:104628CrossRef
Hu XL, Wu SS, Zhang GC, Zheng W, Liu C, He CC, Liu ZX, Guo XY, Zhang H (2021) Landslide displacement prediction using kinematics-based random forests method: A case study in Jinping Reservoir Area. China. Eng Geol 283:105975CrossRef
Ju Y, Ren Z, Mao L, Chiang FP (2018) Quantitative visualisation of the continuous whole-field stress evolution in complex pore structures using photoelastic testing and 3D printing methods. Opt Express 26(5):6182–6201CrossRef
Kamali MT, Shodja HM (2014) An accurate semi-analytical method for an arbitrarily oriented edge or interior crack in an anisotropic homogeneous elastic solid. Eur J Mech A/Solids 45:133–142CrossRef
Liu J, Liang X, Xue Y, Fu Y, Yao K, Dou F (2020) Investigation on crack initiation and propagation in hydraulic fracturing of bedded shale by hybrid phase-field modeling. Theor Appl Fracture Mech 108:102651CrossRef
Noijen SPM, Sluis OVD, Timmermans PHM, Zhang GQ (2012) A semi-analytic method for crack kinking analysis at isotropic bi-material interfaces. Eng Fract Mech 83:8–25CrossRef
Réthoré J, Roux S, Hild F (2010) Mixed-mode crack propagation using a Hybrid Analytical and eXtended Finite Element MethodPropagation de fissure en mode mixte par une méthode d’éléments finis hydride. Comptes Rendus Mécanique 338(3):121–126CrossRef
Sadeghirad A, Chopp DL, Ren X, Fang E, Lua J (2016) A novel hybrid approach for level set characterization and tracking of non-planar 3D cracks in the extended finite element method. Eng Fract Mech 160:1–14CrossRef
Simulia DCS (2011) Abaqus. Abaqus/Standard 6.11, User's Manual, Dessault Systems; Abaqus: Providence, RI, USA
Sun W, Zhang G, Zhang ZL (2021) Damage analysis of the cut-off wall in a landslide dam based on centrifuge and numerical modeling. Computers Geotechn 130:103936CrossRef
Trivino LF, Mohanty B (2015) Assessment of crack initiation and propagation in rock from explosion-induced stress waves and gas expansion by cross-hole seismometry and FEM–DEM method. Int J Rock Mech Min Sci 77:287–299CrossRef
Valente S, Capriulo C, He Q (2019) A compression-shear fracture growing on an arch-gravity dam. Theoret Appl Fract Mech 101:178–184CrossRef
Wang HW, Wu ZM, Wang YJ, Yu RC (2019) An analytical method for predicting mode-I crack propagation process and resistance curve of rock and concrete materials. Theoret Appl Fract Mech 100:328–341CrossRef
Wang SM, Liu CK, Shao ZM, Ma GY, He C (2020) Experimental study on damage evolution characteristics of segment structure of shield tunnel with cracks based on acoustic emission information. Eng Fail Anal 118:104899CrossRef
Wu ZJ, Yu FZ, Zhang PL, Liu XW (2019a) Micro-mechanism study on rock breaking behavior under water jet impact using coupled SPH-FEM/DEM method with Voronoi grains. Eng Anal Boundary Elem 108:472–483CrossRef
Wu ZJ, Zhang PL, Fan LF, Liu QS (2019b) Numerical study of the effect of confining pressure on the rock breakage efficiency and fragment size distribution of a TBM cutter using a coupled FEM-DEM method. Tunn Undergr Space Technol 88:260–275CrossRef
Xu X, Wang G, Fan C, Liu XL, Wu MM (2020) Grain-scale reconstruction and simulation of coal mechanical deformation and failure behaviors using combined SEM Digital Rock data and DEM simulator. Powder Technol 360:1305–1320CrossRef
Yang SQ, Jing H (2011) Strength failure and crack coalescence behavior of brittle sandstone samples containing a single fissure under uniaxial compression. Int J Fract 168(2):227–250CrossRef
Yang SQ, Yin PF, Huang YH, Cheng JL (2019) Strength, deformability and X-ray micro-CT observations of transversely isotropic composite rock under different confining pressures. Eng Fract Mech 214:1–20CrossRef
Zhang X, Sloan SW, Vignes C, Sheng DC (2017) A modification of the phase-field model for mixed mode crack propagation in rock-like materials. Comput Methods Appl Mech Eng 322:123–136CrossRef
Zhao Z, Zhou XP (2019a) Digital measurement of 2D and 3D cracks in sandstones through improved pseudo color image enhancement and 3D reconstruction method. Int J Numer Anal Meth Geomech 43(16):2565–2584CrossRef
Zhao Z, Zhou XP (2019b) An integrated method for 3D reconstruction model of porous geomaterials through 2D CT images. Computes Geosci 123:83–94CrossRef
Zhao Z, Zhou XP (2020a) 3D digital analysis of cracking behaviors of rocks through 3d reconstruction model under triaxial compression. J Eng Mech 146(8):04020084CrossRef
Zhao Z, Zhou XP (2020) Establishment of numerical cracking constitutive models using 3D reconstruction and X-ray CT images of geomaterials. Int J Mech Sci 183:105814CrossRef
Zhao Z, Zhou XP (2020) Pore-scale effect on the hydrate variation and flow behaviors in microstructures using X-ray CT imaging. J Hydrol 584:124678CrossRef
Zhao Z, Zhou XP (2021) Rapid uniaxial compressive strength assessment by microstructural properties using X-ray CT imaging and virtual experiments. Arch Civil Mech Eng 21(2):46CrossRef
Zhao Z, Zhou XP, Qian QH (2020) Fracture characterization and permeability prediction by pore scale variables extracted from X-ray CT images of porous geomaterials. Sci China Technol Sci 63(5):755–767CrossRef
Zhou XP, Zhao Z (2020) Digital evaluation of nanoscale-pore shale fractal dimension with microstructural insights into shale permeability. J Natural Gas Sci Eng 75:103CrossRef
Zhou XP, Chen JW, Berto F (2020) XFEM based node scheme for the frictional contact crack problem. Computers Str 231:106221CrossRef
Zhou XP, Zhao Z, Liu Y (2020b) Digital spatial cracking behaviors of fine-grained sandstone with precracks under uniaxial compression. Int J Numer Anal Meth Geomech 44(13):1770–1787CrossRef
Zhou XP, Zhao Z, Li Z (2020c) Cracking behaviors and hydraulic properties evaluation based on fractural microstructure models in geomaterials. Int Jf Rock Mech Min Sci 130:104304CrossRef
Metadaten
Titel
Digital Evaluation of Micro-Pore Water Effects on Mechanical and Damage Characteristics of Sandstone Subjected to Uniaxial, Cyclic Loading–Unloading Compression by 3D Reconstruction Technique
verfasst von
Xiao-Ping Zhou
Da-Chao Jiang
Zhi Zhao
Publikationsdatum
13.10.2021
Verlag
Springer Vienna
Erschienen in
Rock Mechanics and Rock Engineering / Ausgabe 1/2022
Print ISSN: 0723-2632
Elektronische ISSN: 1434-453X
DOI
https://doi.org/10.1007/s00603-021-02662-1

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