Effect of unloading rate and pore water pressure on mechanical properties of sandstone

DENG Hua-feng; WANG Zhe; LI Jian-lin; JIANG Qiao; ZHANG Heng-bin

doi:10.11779/CJGE201711004

Volume 39 Issue 11

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Chinese Journal of Geotechnical Engineering > 2017 > 39(11): 1976-1983. > DOI: 10.11779/CJGE201711004

DENG Hua-feng, WANG Zhe, LI Jian-lin, JIANG Qiao, ZHANG Heng-bin. Effect of unloading rate and pore water pressure on mechanical properties of sandstone[J]. Chinese Journal of Geotechnical Engineering, 2017, 39(11): 1976-1983. DOI: 10.11779/CJGE201711004

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Effect of unloading rate and pore water pressure on mechanical properties of sandstone

Key Laboratory of Geological Hazards in Three Gorges Reservoir Area (China Three Gorges University), Ministry of Education, Yichang 443002, China

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Received Date: August 18, 2016
Published Date: November 24, 2017

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Abstract

In order to study the effect of discharge load rate and pore water pressure on the mechanical properties of sandstone, the triaxial unloading tests with different unloading rates (0.005, 0.02, 0.05 and 0.1 MPa/s) and different osmotic pressures (0, 0.3, 0.6, 0.9 and 1.2 MPa) are designed and perfomed. The results show that: (1) At the loading stage, with the increase of the pore water pressure, the gradient of stress-strain curve of rock decreaseds gradually; (2) At the stage of unloading, with the increase of the unloading rate, the soft number of confining pressure is smaller, the confining pressure of rock failure is smaller, the rock strength is relatively high, but the degree of fragmentation is more serious. Moreover, under the same unloading rate, the higher the pore water pressure is, the more obvious the rock lateral expansion phenomenon is, and the rock is much easier to fail; (3) At the stage of unloading, the deformation modulus of rock shows a slow and steep trend, and the smaller the unloading rate is, the higher the pore water pressure is, the larger the deformation modulus deterioration amplitude is; (4) During the process of unloading, with the increase of the unloading rate, the features of rock brittle failure are more obvious. With the increase of pore water pressure, the number of axial tensile cracks and tracking secondary cracks near failure is larger. The stress concentration caused by the pore water pressure in specimen cracks or crack tips is the main reason that leads to the deformation failure. The related research results can provide good references for the analysis of the discharging mechanical properties of the hydrous rock mass.
- unloading rate,
- pore water pressure,
- deformation modulus,
- mechanical property,
- failure characteristic

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[1]	哈秋舲, 李建林, 张永兴, 等. 节理岩体卸载非线性岩体力学[M].北京：中国建筑工业出版社, 1998. (HA Qiu-ling, LI Jian-lin, ZHANG Yong-xing, et al. Jointed rock mass unloading nonlinear rock mechanics[M]. Beijing: China Architecture and Building Press, 1998. (in Chinese))
[2]	陶履彬, 夏才初, 陆益鸣. 三峡工程花岗岩卸荷全过程特性的试验研究[J]. 同济大学学报(自然科学版), 1998, 26(3): 330-334. (TAO Lu-bin, XIA Cai-chu, LU Yi-ming. Three Gorges granite unloading process characteristics experimental study[J]. Journal of Tongji University (Natural science edition), 1998, 26(3): 330-334. (in Chinese))
[3]	黄润秋, 黄达. 卸荷条件下花岗岩力学特性试验研究[J]. 岩石力学与工程学报, 2008, 27(11): 2205-2213. (HUANG Run-qiu, HUANG Da. Experimental study on mechanical properties of granite under loading conditions[J]. Chinese Journal of Rock Mechanics and Engineering, 2008, 27(11): 2205-2213. (in Chinese))
[4]	黄达, 黄润秋. 卸荷条件下裂隙岩体变形破坏及裂纹扩展演化的物理模型试验[J]. 岩石力学与工程学报, 2010, 29(3): 502-512. (HUANG Da, HUANG Run-qiu. Physical model test on deformation failure and crack propagation evolvement of fissured rocks under unloading[J]. Chinese Journal of Rock Mechanics and Engineering, 2010, 29(3): 502-512. (in Chinese))
[5]	陈景涛, 冯夏庭. 高地应力下岩石的真三轴试验研究[J]. 岩石力学与工程学报, 2006, 25(8): 1537-1543. (CHEN Jing-tao, FENG Xia-ting. High stress rock true triaxial test[J]. Chinese Journal of Rock mechanics and Engineering Journal, 2006, 25(8): 1537-1543. (in Chinese))
[6]	QI S W, WU F Q, YAN F Z, et al. Mechanism of deep cracks in the left band slope of Jinping first stage hydropower station[J]. Engineering Geology, 2004, 73(1/2): 129-144.
[7]	HUANG D, LI Y. Conversion of strain energy in triaxial unloading tests on marble[J]. International Journal of Rock Mechanics & Mining Sciences, 2014, 66(1): 160-168.
[8]	黄达, 谭清, 黄润秋. 高围压卸荷条件下大理岩破碎块度分形特征及其与能量相关性研究[J]. 岩石力学与工程学报, 2012, 31(7): 1379-1389. (HUANG Da, TAN Qing, HUANG Run-qiu. Fractal characteristics of fragmentation and relation with energy of marble under unloading with high confining pressure[J]. Chinese Journal of Rock Mechanics and Engineering, 2012, 31(7): 1379-1389. (in Chinese))
[9]	李宏哲, 夏才初, 闫子舰, 等. 锦屏水电站大理岩在高应力条件下的卸荷力学特性研究[J]. 岩石力学与工程学报, 2007, 26(10): 2104-2109. (LI Hong-zhe, XIA Cai-chu, YAN Zi-jian, et al. Jinping Hydropower Station marble at high strain under unloading bearing mechanical properties[J]. Rock Mechanics and Engineering, 2007, 26(10): 2104-2109. (in Chinese))
[10]	闫子舰, 夏才初, 李宏哲, 等. 分级卸荷条件下锦屏大理岩流变规律研究[J]. 岩石力学与工程学报, 2008, 27(10): 2153-2159. (YAN Zi-jian, XIA Cai-chu, LI Hong-zhe, et al. Grading discharge load under the condition of Jinping marble rheological rules[J]. Chinese of Journal of Rock Mechanics and Engineering, 2008, 27(10): 2153-2159. (in Chinese))
[11]	张倬元, 王士天, 王兰生. 工程地质分析原理[M]. 北京:地质出版社, 1994. (ZHANG Zhuo-yuan, WANG Shi-tian, WANG Lan-sheng. Principle of engineering geology[M]. Beijing: Geological Publishing House, 1994. (in Chinese))
[12]	黄润秋. 岩石高边坡发育的动力过程及其稳定性控制[J]. 岩石力学与工程学报, 2008, 27(8): 1525-1544. (HUANG Run-qiu. The dynamic process of high rock slope development and its stability control[J]. Chinese Journal of Rock Mechanics and Engineering, 2008, 27(8): 1525-1544. (in Chinese))
[13]	黄润秋, 黄达. 高地应力条件下卸荷速率对锦屏大理岩力学特性影响规律试验研究[J]. 岩石力学与工程学报, 2010, 29(1): 21-33. (HUANG Run-qiu, HUANG Da. Experimental research on affection laws of unloading rates on mechanical properties of Jinping marble under high geostress[J]. Chinese Journal of Rock Mechanics and Engineering, 2010, 29(1): 21-33. (in Chinese))
[14]	吴刚, 孙钧. 卸荷应力状态下裂隙岩体的变形和强度特性[J]. 岩石力学与工程学报, 1998, 17(6): 615-621. (WU Gang, SUN Jun. Unloading stress of fractured rock mass deformation and strength characteristics[J]. Chinese Journal of Rock Mechanics and Engineering Journal, 1998, 17(6):615- 621. (in Chinese))
[15]	陈卫忠, 吕森鹏, 郭小红, 等. 基于能量原理的卸围压试验与岩爆判据研究[J]. 岩石力学与工程学报, 2009, 28(8): 1530-1540. (CHEN Wei-zhong, LÜ Sen-peng, GUO Xiao-hong, et al. Study on unloading confining pressure test and rock burst criterion based on energy principle[J]. Chinese Journal of Rock Mechanics and Engineering, 2009, 28(8): 1530-1540. (in Chinese))
[16]	张凯, 周辉, 潘鹏志, 等. 不同卸荷速率下岩石强度特性试验研究[J]. 岩土力学, 2010, 31(7): 2072-2078. (ZHANG Kai, ZHOU Hui, PAN Peng-zhi, et al. Experimental study on strength characteristics of rock under different unloading rates[J]. Rock and Soil Mechanics, 2010, 31(7): 2072-2078. (in Chinese))
[17]	邱士利, 冯夏庭, 张传庆, 等. 不同卸围压速率下深埋大理岩卸荷力学特性试验研究[J]. 岩石力学与工程学报, 2010, 29(9): 1807-1817. (QIU Shi-li, FENG Xia-ting, ZHANG Chuan-qing, et al. Different unloading confining pressure rate of deep buried marble unloading mechanical properties test and research[J]. Chinese Journal of Rock Mechanics and Engineering, 2010, 29(9): 1807-1817. (in Chinese))
[18]	王在泉, 张黎明, 孙辉, 等. 不同卸荷速度条件下灰岩力学特性的试验研究[J]. 岩土力学, 2011, 32(4): 1045-1051. (WANG Zai-quan, ZHANG Li-ming, SUN Hui, et al. Experimental study on the mechanical properties of limestone under different unloading velocity[J]. Rock and Soil Mechanics, 2011, 32(4): 1051-1045. (in Chinese) )
[19]	柏俊磊, 王乐华, 汤开宇, 等. 开挖卸荷速率变化对岩质边坡应力应变影响作用研究[J]. 长江科学院学报, 2014, 31(6): 60-64. (BAI Jun-lei, WANG Le-hua, TANG Kai-yu, et al. Excavation unloading load rate of change of rock slope should be stress influence function[J]. Journal of Rock Yangtze River Research Institute, 2014, 31(6): 60-64. (in Chinese))
[20]	李志敬, 朱珍德, 施毅, 等. 高围压高水压条件下岩石卸荷强度特性试验研究[J]. 河海大学学报(自然科学版), 2009(2): 162-165. (LI Zhi-jing, ZHU Zhen-de, SHI Yi, et al. Experimental study on unloading strength characteristics of rock under high confining pressure and high pressure condition[J]. Journal of Hohai University (Natural science edition), 2009(2): 162-165. (in Chinese))
[21]	张雪颖, 阮怀宁. 高围压高水压条件下大理岩卸围压变形破坏与能量特征[J]. 水利水电科技进展, 2009, 29(5): 5-8. (ZHANG Xue-ying, RUAN Huai-ning. Unloading de-formation failure and energy properties of marble under high confining pressure and high water pressure[J]. Advances in Science and Technology of Water Resources, 2009, 29(5): 5-8. (in Chinese))
[22]	俞缙, 李宏, 陈旭, 等. 砂岩卸围压变形过程中渗透特性与声发射试验研究[J]. 岩石力学与工程学报, 2014, 33(1): 69-79. (YU Jin, LI Hong, CHEN Xu, et al. Experimental study of permeability and acoustic emission characteristics of sandstone during processes of unloading confining pressure and deformation[J]. Chinese Journal of Rock Mechanics and Engineering, 2014, 33(1): 69-79. (in Chinese))
[23]	蒋海飞. 高围压高孔隙水压作用下岩石卸荷蠕变特性研究及其工程应用[D]. 重庆: 重庆大学, 2014. (JIANG Hai-fei. Study on unloading creep characteristics of rock under high confining pressure and high pore water pressure and its engineering application[D]. Chongqing: Chongqing University, 2014. (in Chinese))
[24]	邓华锋, 李建林, 邓成进, 等. 岩石力学试验中岩样选择和抗压强度预测方法研究[J]. 岩土力学, 2011, 32(11): 3399-3403. (DENG Hua-feng, LI Jian-lin, DENG Cheng-jin, et al. Analysis of sampling in rock mechanics test and compressive strength prediction methods[J]. Rock and Soil Mechanics, 2011, 32(11): 3399-3403. (in Chinese))
[25]	黄兴, 刘泉声, 卢兴利, 等. 深部软弱地层TBM开挖围岩力学行为试验研究（II）：卸荷速率效应与变形机理[J]. 岩石力学与工程学报, 2013, 36(6): 1-12. (HUANG Xing, LIU Quan-sheng, LU Xing-li, et al. For deep soft ground TBM excavation surrounding rock mechanics behavior experimental study (II): unloading rate effect and deformation mechanism[J]. Chinese Journal of Rock Mechanics and Engineering, 2013, 36(6): 1-12. (in Chinese))

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