China Safety Science Journal ›› 2021, Vol. 31 ›› Issue (9): 36-43.doi: 10.16265/j.cnki.issn1003-3033.2021.09.006
• Safety engineering technology • Previous Articles Next Articles
SU Ronghua, LI Chao, MA Zhiyuan
Received:
2021-06-19
Revised:
2021-08-14
Online:
2021-09-28
Published:
2022-03-28
CLC Number:
SU Ronghua, LI Chao, MA Zhiyuan. Study on creep disturbance characteristics of sandstone considering initial damage effect[J]. China Safety Science Journal, 2021, 31(9): 36-43.
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.cssjj.com.cn/EN/10.16265/j.cnki.issn1003-3033.2021.09.006
[1] TINA M Č, THOMAS F. Investigation of creep behaviours of gypsum specimens with flaws under different uniaxialloads[J]. Journal of Rock Mechanics and Geotechnical Engineering,2018, 10(1):151-163. [2] 辛亚军,郝海春,吕鑫,等. 基于胶结系数岩石强化的蠕变控制模型[J].中国安全科学学报, 2018, 28(12):20-26. XIN Yajun, HAO Haichun, LYU Xin, et al. Reinforcement rock creep control model based on cementation coefficient [J]. China Safety Science Journal, 2018, 28(12):20-26. [3] XU Ming, JIN Dehai, SONG Erxiang. A rheological model to simulate the shear creep behavior of rockfills considering the influence of stress states[J].Acta Geotechnica, 2018,13(6):1 313-1 327. [4] ZHU Wancheng,LI Shaohua,LI Shuai, et al. Influence of dynamic disturbance on the creep of sandstone: an experimental study [J]. Rock Mechanics and Rock Engineering, 2019, 52(4):1 023-1 039. [5] 高延法,肖华强,王波,等. 岩石流变扰动效应试验及其本构关系研究[J].岩石力学与工程学报, 2008,24(17):3 180-3 185. GAO Yanfa, XIAO Huaqiang, WANG Bo, et al.A rheological test of sandstone with perturbation effect and its constitutive relationship study[J]. Chinese Journal of Rock Mechanics and Engineering, 2008,24(17):3 180-3 185. [6] 刘威,张敬军,亢方超,等. 考虑煤体蠕变位移的水力扩孔合理扩煤量[J].中国安全科学学报, 2017,27(3):111-116. LIU Wei, ZHANG Jingjun, KANG Fangchao, et al. Reasonable coal amount of hydraulic flushing borehole considering creep displacement [J]. China Safety Science Journal, 2017,27(3):111-116. [7] 徐俊,祝方才,谭园辉. 扰动荷载下单孔大理岩蠕变特性试验研究[J].湖南工业大学学报, 2018,32(1):36-43. XU Jun, ZHU Fangcai, TAN Yuanhui. An experimental study on creep properties of marble with single holes under a disturbance load[J]. Journal of Hunan University of Technology,2018,32(1):36-43. [8] 刘文博,张树光,林晓楠,等. 基于加速蠕变改进的巷道围岩蠕变模型[J].中国安全科学学报, 2019,29(5):124-130. LIU Wenbo,ZHANG Shuguang,LIN Xiaonan, et al.An improved creep model of roadway surrounding rock based on accelerated creep [J]. China Safety Science Journal, 2019,29(5):124-130. [9] 张亮亮,王晓健. 基于广义伯格斯模型的岩石损伤蠕变模型[J].中国安全科学学报, 2019,29(1):125-131. ZHANG Liangliang,WANG Xiaojian. Rock damage creep model based on generalized Burgers model [J]. China Safety Science Journal, 2019,29(1):125-131. [10] 苏荣华,刘晓林,沈洪爽. 周期冲击扰动下粉砂岩单轴蠕变特性研究[J].应用基础与工程科学学报, 2018,26(6):1 327-1 337. SU Ronghua, LIU Xiaolin, SHEN Hongshuang. Uniaxial creep characteristics of siltstone under cyclic shock disturbance[J]. Journal of Basic Science and Engineering,2018,26(6):1 327-1 337. [11] 赵延林,曹平,陈沅江. 分级加卸载下节理软岩流变试验及模型[J].煤炭学报, 2008,33(7):748-753. ZHAO Yanlin, CAO Ping, CHEN Yuanjiang. Creep properties experi ment and model of jointed soft rocks under step load and unload[J]. Journal of China Coal Society,2008, 33(7):748-753. [12] 韩庚友,王思敬,张晓平,等. 分级加载下薄层状岩石蠕变特性研究[J].岩石力学与工程学报, 2010, 29(11):2 239-2 247. HAN Gengyou, WANG Sijing, ZHANG Xiaoping,et al.Study on creep characteristics of thin-layer rock under graded loading[J]. Chinese Journal of Rock Mechanics and Engineering, 2010,29(11):2 239-2 247. [13] 沈明荣,谌洪菊. 红砂岩长期强度特性的试验研究[J].岩土力学, 2011, 32(11):3 301-3 305. SHEN Mingrong, CHEN Hongju. Experimental study on long term strength characteristics of red sandstone[J]. Rock and Soil Mechanics,2011,32(11):3 301-3 305. [14] 陈沅江,潘长良,曹平, 等. 软岩流变的一种新力学模型[J].岩土力学,2003, 24(2): 209-214. CHEN Yuanjiang, PAN Changliang, CAO Ping,et al. A new mechanical model for soft rock rheology[J]. Rock and Soil Mechanics, 2003, 24(2): 209-214. [15] 王其虎,叶义成,刘艳章,等. 考虑初始损伤和蠕变损伤的岩石蠕变全过程本构模型[J].岩土力学. 2016, 37(增1): 57-62. WANG Qihu, YE Yicheng, LIU Yanzhang,et al. A creep constitutive model of rock considering initial damage and creep damage[J]. Rock and Soil Mechanics, 2016, 37(S1): 57-62. [16] 蒋昱州,徐卫亚,王瑞红,等. 岩石非线性蠕变损伤模型研究[J].中国矿业大学学报, 2009, 38(3):331-335. JIANG Yuzhou, XU Weiya, WANG Ruihong,et al. Nonlinear creep damage constitutive model of rock[J]. Journal of China University of Mining & Technology,2009,38(3):331-335. |
[1] | LI Gang, LIU Haizhen, YANG Qinghe, NIU Weifeng. Analysis on failure characteristics of coal seam floors and water inrush risks in mining under pressure [J]. China Safety Science Journal, 2022, 32(5): 68-76. |
[2] | ZENG Jihan, ZHANG Guang, WU Hao, HU Shaohua. Determination method of comprehensive early-warning indexes for tailings dam based on improved POT model [J]. China Safety Science Journal, 2022, 32(5): 134-139. |
[3] | WANG Laigui, ZHAO Guochao, LIU Xiangfeng, ZHAO Na, LI Xilin. Influence of asperity shapes on friction coefficients of sandstone joints [J]. China Safety Science Journal, 2022, 32(4): 36-43. |
[4] | HONG Lin, WANG Wenjing, GAO Dameng, GUO Yingchao, MA Honghai. Influence of coal rank on CPSD in low-temperature N2 adsorption [J]. China Safety Science Journal, 2022, 32(4): 51-58. |
[5] | CHENG Lianhua, GUO A'juan, GUO Huimin, CAO Dongqiang. Research on coupling evolution path of gas explosion risks in coal mines [J]. China Safety Science Journal, 2022, 32(4): 59-64. |
[6] | JIN Hongsong, YI Fu, QI Xupeng, YU Huize, DU Changbo, YU Ben. Research on slip stability and interface shear model of reinforced tailings slope [J]. China Safety Science Journal, 2022, 32(4): 86-92. |
[7] | JIANG Yanhang, BAI Gang, ZHOU Xihua, WANG Siqi, WANG Lianhua, FAN Chaojun. Experimental study on influence factors of CH4 displacement by CO2 [J]. China Safety Science Journal, 2022, 32(4): 113-121. |
[8] | WU Xuehai, LI Bobo, GAO Zheng, XU Jiang, FU Jiale. Influence mechanism of gas pressure reduction on coal deformation and seepage [J]. China Safety Science Journal, 2022, 32(4): 129-134. |
[9] | ZHU Quanjie, ZHANG Zhen, LIANG Juan, LIU Xiaohui, GU Lei, ZHONG Leilei. Fast generation method of 3D mine roadway model and its application [J]. China Safety Science Journal, 2022, 32(3): 48-57. |
[10] | ZHAO Wenbin, LIU Fangshun, SHI Xinyan, LIU Hui, WANG Zhongmi, LI Zhenwu. Research on dynamic change characteristics of three-dimensional spontaneous combustion zone in caving coal face [J]. China Safety Science Journal, 2022, 32(3): 65-74. |
[11] | DONG Jianjun, YANG Di, YAN Bin, MEI Yuan. Study on safety and stability of high altitude dumps under intense drying-wetting alternation [J]. China Safety Science Journal, 2022, 32(3): 75-83. |
[12] | ZHOU Jing, LIU Yongsheng, DOU Zijun, YIN Huisheng, ZHANG Biao, CHEN Guoqiang. Trajectory design and control method of life-support hole in mine rescue [J]. China Safety Science Journal, 2022, 32(3): 84-89. |
[13] | FENG Gong, XIA Yuanyou, WANG Zhide, YAN Minjia. Dynamic early warning method of open-pit mine slopes based on integrated displacement information [J]. China Safety Science Journal, 2022, 32(3): 116-122. |
[14] | MA Xingying, WANG Zhaofeng, YU Rui, ZHOU Xiaoqing, LI Qianrong. Gas diffusion test in low temperature environment and analysis on compatibility of different models [J]. China Safety Science Journal, 2022, 32(3): 123-130. |
[15] | XIONG Yu, KONG Dezhong, YANG Shengli, WU Guiyi, ZUO Yujun, CHENG Zhanbo. Cloud model identification of coal face stability in steeply inclined working faces [J]. China Safety Science Journal, 2022, 32(3): 144-151. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||