Time-dependent behaviors and volumetric recovery phenomenon of sandstone under triaxial loading and unloading三轴加卸载下砂岩的时效行为及体积恢复

被引:0
作者
Zhi-xiang Song
Jun-wen Zhang
Xu-kai Dong
Yang Zhang
Yu-jie Zhang
Sai An
机构
[1] China University of Mining and Technology (Beijing),School of Energy and Mining Engineering
来源
Journal of Central South University | 2022年 / 29卷
关键词
initial high in-situ stress state; sandstone; time-dependent behaviors; depth effect; volumetric recovery; 初始高地应力状态; 砂岩; 时效行为; 深部效应; 体积恢复;
D O I
暂无
中图分类号
学科分类号
摘要
The time-dependent behaviors of coal and rocks were easily ignored. Besides, “three-stage” triaxial loading and unloading mechanics tests of sandstone were conducted based on the idea of the initial high in-situ stress state recovery according to the full-life cycle evolution characteristics of surrounding rocks in deep mines (pre-excavation, excavation and post-excavation). The time-dependent stress — strain curves of sandstone were obtained. Meanwhile, the deformation and strength fitting relationships with time of sandstone were also built. Furthermore, the dilatancy and volumetric recovery mechanical mechanisms of sandstone were revealed. The results showed that: 1) There were significant time-dependent evolution characteristics on the deformation and strength of sandstone; 2) There were significant correlations among the internal friction angle, cohesion and the simulated depths; 3) Volumetric recovery phenomenon of sandstone was observed for the first time, which mainly occurred at the simulated depth of 2000 m. The above research conclusions could provide a certain theoretical basis for the stability control of surrounding rocks in deep mines.
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页码:4002 / 4020
页数:18
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[1]  
Yu C-B(2016)Effects of porosity on seismic velocities, elastic moduli and Poisson’s ratios of solid materials and rocks [J] Journal of Rock Mechanics and Geotechnical Engineering 8 35-49
[2]  
Ji S-C(2016)Study on the characteristic energy factor of the deep rock mass under weak disturbance [J] Rock Mechanics and Rock Engineering 49 3165-3173
[3]  
Li Q(2016)Evolution of stress concentration and energy release before rock bursts: Two case studies from Xingan coal mine, Hegang, China [J] Rock Mechanics and Rock Engineering 49 3393-3401
[4]  
Wang M-Y(2017)In situ observation of failure mechanisms controlled by rock masses with weak interlayer zones in large underground cavern excavations under high geostress [J] Rock Mechanics and Rock Engineering 50 2465-2493
[5]  
Li J(2019)Implications of the pore pressure and in situ stress for the coalbed methane exploration in the southern Junggar Basin, China [J] Engineering Geology 262 105305-1037
[6]  
Ma L-J(2020)Stress — energy mechanism for rock failure evolution based on damage mechanics in hard rock [J] Rock Mechanics and Rock Engineering 53 1021-966
[7]  
Wang G-F(2020)Effects of a high temperature (500 °C) on the fracture processes in calcite-cemented sandstone along bedding-plane orientations [J] Rock Mechanics and Rock Engineering 53 955-874
[8]  
Gong S-Y(2010)Comparison between models of rock discontinuity strength and deformation [J] Journal of Geotechnical and Geoenvironmental Engineering 136 864-1187
[9]  
Li Z-L(2011)The relationships among brittleness, deformation behavior, and transport properties in mudstones: An example from the Horonobe Underground Research Laboratory, Japan [J] Journal of Geophysical Research Atmospheres 116 B09206-958
[10]  
Duan S-Q(2013)The relationship between the deformation mechanism and permeability on brittle rock [J] Natural Hazards 66 1179-958
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