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Bo Hu, Sheng-qi Yang, Peng Xu (2018)
A nonlinear rheological damage model of hard rockJournal of Central South University, 25
R. Kranz, W. Harris, N. Carter (1982)
Static fatigue of granite at 200°CGeophysical Research Letters, 9
(2013)
Zoback, M.D.: Mechanical properties of shale-gas reservoir rocks — part 2: ductile creep
P. Konicek, M. Saharan, H. Mitri (2011)
Destress Blasting in Coal Mining - State-of-the-Art ReviewProcedia Engineering, 26
P. Kaiser, Ming Cai (2012)
Design of rock support system under rockburst conditionJournal of rock mechanics and geotechnical engineering, 4
A. Niemeijer, C. Spiers, B. Bos (2002)
Compaction creep of quartz sand at 400-600°C: Experimental evidence for dissolution-controlled pressure solutionEarth and Planetary Science Letters, 195
Shengqi Yang, Bo Hu (2018)
Creep and Long-Term Permeability of a Red Sandstone Subjected to Cyclic Loading After Thermal TreatmentsRock Mechanics and Rock Engineering, 51
Yanlin Zhao, Yixian Wang, Weijun Wang, W. Wan, Jinzhou Tang (2017)
Modeling of non-linear rheological behavior of hard rock using triaxial rheological experimentInternational Journal of Rock Mechanics and Mining Sciences, 93
B. Cerfontaine, F. Collin (2018)
Cyclic and Fatigue Behaviour of Rock Materials: Review, Interpretation and Research PerspectivesRock Mechanics and Rock Engineering, 51
Chong-feng Chen, Tao Xu, Shao-hua Li (2018)
Microcrack Evolution and Associated Deformation and Strength Properties of Sandstone Samples Subjected to Various Strain RatesMinerals
P. Konicek, Schreiber (2018)
Rockburst prevention via destress blasting of competent roof rocks in hard coal longwall miningJournal of The South African Institute of Mining and Metallurgy, 118
H. Sone, M. Zoback (2014)
Time-dependent deformation of shale gas reservoir rocks and its long-term effect on the in situ state of stressInternational Journal of Rock Mechanics and Mining Sciences, 69
M. Nicksiar, C. Martin (2012)
Evaluation of Methods for Determining Crack Initiation in Compression Tests on Low-Porosity RocksRock Mechanics and Rock Engineering, 45
J. Eslami, D. Hoxha, D. Grgić (2012)
Estimation of the damage of a porous limestone using continuous wave velocity measurements during uniaxial creep testsMechanics of Materials, 49
A. Kennedy, J. Simpson, Pankaj Kumar, Ayenda Kemp, K. Awate, K. Manning (2020)
2.1 IntroductionCurating Contemporary Music Festivals
Jianwen Yang, R. Edwards (2000)
Predicted groundwater circulation in fractured and unfractured anisotropic porous media driven by nuclear fuel waste heat generationCanadian Journal of Earth Sciences, 37
Shengqi Yang, Sheng-Qi Yang, Peng Xu, P. Ranjith, Guo Chen, H. Jing (2015)
Evaluation of creep mechanical behavior of deep-buried marble under triaxial cyclic loadingArabian Journal of Geosciences, 8
K. Shah, J. Labuz (1995)
Damage mechanisms in stressed rock from acoustic emissionJournal of Geophysical Research, 100
N. Challamel, C. Lanos, C. Casandjian (2006)
Stability analysis of quasi-brittle materials – creep under multiaxial loadingMechanics of Time-Dependent Materials, 10
M. Heap, P. Baud, P. Meredith (2009)
Influence of temperature on brittle creep in sandstonesGeophysical Research Letters, 36
Soo-Jin Jeong, Woo-Seung Kim, S. Sung (2007)
Numerical investigation on the flow characteristics and aerodynamic force of the upper airway of patient with obstructive sleep apnea using computational fluid dynamics.Medical engineering & physics, 29 6
Yu Zhang, J. Shao, Weiya Xu, Yun Jia (2016)
Time-Dependent Behavior of Cataclastic Rocks in a Multi-Loading Triaxial Creep TestRock Mechanics and Rock Engineering, 49
Xibing Li, F. Gong, M. Tao, Long-jun Dong, K. Du, Chunde Ma, Zilong Zhou, T. Yin (2017)
Failure mechanism and coupled static-dynamic loading theory in deep hard rock mining: A reviewJournal of rock mechanics and geotechnical engineering, 9
Md. Islam, D. Hayashi, A. Kamruzzaman (2009)
Finite element modeling of stress distributions and problems for multi-slice longwall mining in Bangladesh, with special reference to the Barapukuria coal mineInternational Journal of Coal Geology, 78
Shao-jun Li, Xiating Feng, Zhanhai Li, Bing-Rui Chen, Chuan-qing Zhang, Hui Zhou (2012)
In situ monitoring of rockburst nucleation and evolution in the deeply buried tunnels of Jinping II hydropower stationEngineering Geology, 137
P. Konicek, K. Souček, L. Staš, Rajendra Singh (2013)
Long-hole destress blasting for rockburst control during deep underground coal miningInternational Journal of Rock Mechanics and Mining Sciences, 61
Tao Xu, G. Zhou, M. Heap, Wancheng Zhu, Chongfeng Chen, Chongfeng Chen, P. Baud (2017)
The Influence of Temperature on Time-Dependent Deformation and Failure in Granite: A Mesoscale Modeling ApproachRock Mechanics and Rock Engineering, 50
Michiaki Kobayashi (2017)
Verification of crack opening criterion deduced by newly derived micro-crack evolution equationInternational Journal of Solids and Structures, 106
E. Eberhardt, D. Stead, B. Stimpson, R. Read (1998)
Identifying crack initiation and propagation thresholds in brittle rockCanadian Geotechnical Journal, 35
Q. Wang, Wancheng Zhu, Tao Xu, L. Niu, Jiong Wei (2017)
Numerical Simulation of Rock Creep Behavior with a Damage-Based Constitutive LawInternational Journal of Geomechanics, 17
G. Armand, A. Noiret, J. Zghondi, D. Seyedi (2013)
Short- and long-term behaviors of drifts in the Callovo-Oxfordian claystone at the Meuse/Haute-Marne Underground Research LaboratoryJournal of rock mechanics and geotechnical engineering, 5
A. Sainoki, H. Mitri (2017)
Numerical investigation into pillar failure induced by time-dependent skin degradationInternational journal of mining science and technology, 27
Junbao Wang, Xinrong Liu, Z. Song, Zhushan Shao (2015)
An improved Maxwell creep model for salt rockGeomechanics and Engineering, 9
M. Heap, P. Baud, P. Meredith, Andrew Bell, Ian Main (2009)
Time-dependent brittle creep in Darley Dale sandstoneJournal of Geophysical Research, 114
Hong Chen, H. Qi, R. Long, Maolong Zhang (2012)
Research on 10-year tendency of China coal mine accidents and the characteristics of human factors ☆Safety Science, 50
V. Lyakhovsky, Y. Ben‐Zion (2008)
Scaling relations of earthquakes and aseismic deformation in a damage rheology modelGeophysical Journal International, 172
F. Jeng, M. Weng, Tsan-Hwei Huang, Ming-Lang Lin (2002)
Deformational characteristics of weak sandstone and impact to tunnel deformationTunnelling and Underground Space Technology, 17
H. Liu, Hong-qiang Xie, Jiang-da He, M. Xiao, L. Zhuo (2016)
Nonlinear creep damage constitutive model for soft rocksMechanics of Time-Dependent Materials, 21
N. Brantut, M. Heap, P. Meredith, P. Baud (2013)
Time-dependent cracking and brittle creep in crustal rocks: A reviewJournal of Structural Geology, 52
A. Bell, M. Naylor, M. Heap, I. Main (2011)
Forecasting volcanic eruptions and other material failure phenomena: An evaluation of the failure forecast methodGeophysical Research Letters, 38
Yanlin Zhao, Lianyang Zhang, Weijun Wang, W. Wan, Shuqing Li, Wenhao Ma, Yixian Wang (2017)
Creep Behavior of Intact and Cracked Limestone Under Multi-Level Loading and Unloading CyclesRock Mechanics and Rock Engineering, 50
B. Brady, E. Brown (1985)
Rock Mechanics: For Underground Mining
Shuai Li, Wancheng Zhu, L. Niu, Yu Miao, Chong-feng Chen (2018)
Dynamic Characteristics of Green Sandstone Subjected to Repetitive Impact Loading: Phenomena and MechanismsRock Mechanics and Rock Engineering, 51
W. Hustrulid, Richard Bullock (2001)
Underground mining methods : engineering fundamentals and international case studies
B. Brouard, P. Bérest, V. Greef, J. Béraud, C. Lheur, E. Hertz (2013)
Creep closure rate of a shallow salt cavern at Gellenoncourt, FranceInternational Journal of Rock Mechanics and Mining Sciences, 62
T. Xu, T. Xu, C. Tang, Jian Zhao, Liangchong Li, M. Heap (2012)
Modelling the time-dependent rheological behaviour of heterogeneous brittle rocksGeophysical Journal International, 189
H. Sone, M. Zoback (2013)
Mechanical properties of shale-gas reservoir rocks — Part 1: Static and dynamic elastic properties and anisotropyGeophysics, 78
H. Sone, M. Zoback (2013)
Mechanical properties of shale-gas reservoir rocks — Part 2: Ductile creep, brittle strength, and their relation to the elastic modulusGeophysics, 78
T. Szwedzicki (2003)
Rock mass behaviour prior to failureInternational Journal of Rock Mechanics and Mining Sciences, 40
Junbao Wang, Xinrong Liu, Xiao-Jun Liu, Ming Huang (2014)
Creep properties and damage model for salt rock under low-frequency cyclic loadingGeomechanics and Engineering, 7
Yanlin Zhao, P. Cao, Weijun Wang, W. Wan, Ye-ke Liu (2009)
Viscoelasto-plastic rheological experiment under circular increment step load and unload and nonlinear creep model of soft rocksJournal of Central South University of Technology, 16
M. Diederichs, P. Kaiser, E. Eberhardt (2004)
Damage initiation and propagation in hard rock during tunnelling and the influence of near-face stress rotationInternational Journal of Rock Mechanics and Mining Sciences, 41
Hongwei Zhou, C. Wang, L. Mishnaevsky, Z. Duan, J. Ding (2013)
A fractional derivative approach to full creep regions in salt rockMechanics of Time-Dependent Materials, 17
Qingzhao Zhang, M. Shen, W. Ding, Hyun-Sic Jang, B. Jang (2016)
Experimental investigation of long-term characteristics of greenschistGeomechanics and Engineering, 11
Tao Xu, G. Zhou, M. Heap, Shengqi Yang, H. Konietzky, P. Baud (2018)
The Modeling of Time-Dependent Deformation and Fracturing of Brittle Rocks Under Varying Confining and Pore PressuresRock Mechanics and Rock Engineering, 51
(2003)
Underground mining methods and applications
Lei Xue, S. Qin, Qiang Sun, Yuanyuan Wang, Lee Lee, Weichao Li (2014)
A Study on Crack Damage Stress Thresholds of Different Rock Types Based on Uniaxial Compression TestsRock Mechanics and Rock Engineering, 47
A. Mazaira, P. Konicek (2015)
Intense rockburst impacts in deep underground construction and their prevention1Canadian Geotechnical Journal, 52
M. Heap, P. Baud, P. Meredith, S. Vinciguerra, A. Bell, I. Main (2011)
Brittle creep in basalt and its application to time-dependent volcano deformationEarth and Planetary Science Letters, 307
Chongfeng Chen, Tao Xu, M. Heap, P. Baud (2018)
Influence of unloading and loading stress cycles on the creep behavior of Darley Dale SandstoneInternational Journal of Rock Mechanics and Mining Sciences
C. Fairhurst (2003)
Stress estimation in rock: a brief history and reviewInternational Journal of Rock Mechanics and Mining Sciences, 40
(2015)
https://doi.org/10.1139/cgj-2014-0359 Nicksiar, M., Martin, C.D.: Evaluation of methods for determining crack initiation in compression
E. Eberhardt, D. Stead, B. Stimpson (1999)
Quantifying progressive pre-peak brittle fracture damage in rock during uniaxial compressionInternational Journal of Rock Mechanics and Mining Sciences, 36
G. Fabre, F. Pellet (2006)
Creep and time-dependent damage in argillaceous rocksInternational Journal of Rock Mechanics and Mining Sciences, 43
Cyclic stress variation induced by mining activities has a significant effect on the stability of surrounding rock and mining pillar in deep underground engineering. The influence of alternating cyclic loading and unloading tests on creep behavior of sandstone was investigated to explore the mechanism of the effect of the cyclic stress variation on the stability of rock. Firstly, a series of uniaxial constant strain rate and multi-step monotonic creep tests of sandstone were carried out to determine the maximum high loading stress and the minimum low loading stress in the alternating cyclic creep tests. Then the alternating cyclic loading and unloading creep tests were conducted to investigate the effects of loading paths and loading histories of cyclic high stress creep and low stress creep on the creep behavior of sandstone. Acoustic emission events, axial strain rate and lateral strain rate were also analyzed. The experimental results show that loading paths and loading histories of high stress creep and low stress creep have a significant influence on the alternating cyclic creep behavior of sandstone. The loading paths could accelerate the damage in the rock sample, which can be demonstrated by much larger plastic strain occurring in the damaged sample and larger viscous strain in the creep behavior of less damaged sample. The loading histories could increase viscous strain and plastic strain in the damaged sample. The maximum and the minimum loading stresses determined by the unstable crack threshold provide the basis of the unstable cracks growth in rock sample. The work presented in the present paper is helpful to understand the mechanical behaviors of rock mass under cyclic underground mining activities.
Mechanics of Time-Dependent Materials – Springer Journals
Published: Nov 21, 2019
Keywords: Creep behavior; Damage cracks; Volumetric compaction; Volumetric dilatancy; Alternating cyclic creep tests
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