水岩作用下花岗岩动态冲击压缩特性及损伤时效性研究

doi:10.13722/j.cnki.jrme.2023.0970

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摘要了解水岩作用下岩石动力学特性及损伤时效性对深部岩石工程灾变预防具有重要意义。为研究水岩作用时间对花岗岩动态冲击压缩特性及损伤特性影响，使用分离式霍普金斯压杆(SHPB)系统对不同浸泡时间的试件进行冲击压缩试验，结果显示，水浸泡处理提高了花岗岩强度对加载率的敏感性，低加载速率下强度软化因子与时间线性负相关。此外，通过光学显微镜、原子力显微镜、等离子质谱仪和核磁共振系统观察纯净水浸泡0，2，4，6个月的花岗岩表面和内部微观结构变化，优化孔隙损伤演化模型，计算发现6个月未达孔隙损伤阈值。最后量化分析水岩作用时间特性，解释化学损伤与孔隙损伤的时效性差异。结果表明，水岩物理、化学作用共同促进孔隙发育，但时间特性不同，化学作用随时间增长而减缓，物理作用反之。

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	黄耀莹1
	翟越1
	王铭2
	李宇白1
	李艳1

关键词 ：岩石力学, 花岗岩, 水岩作用, 动态冲击压缩特性, 损伤演化, 时效性

Abstract：Understanding the dynamic characteristics and time-dependent damage of rocks under water-rock interactions is crucial for mitigating deep-seated rock engineering hazards. To investigate the impact of water-rock interaction time on the dynamic impact compression characteristics and damage properties of granite，impact compression tests were conducted using a split Hopkinson pressure bar(SHPB) system on specimens subjected to varying immersion time. The results indicate that water immersion treatment enhances the sensitivity of granite strength to loading rates. Specifically，at lower loading rates，there is a linearly negative correlation between the strength softening factor and immersion time. Furthermore，optical microscopy，atomic force microscopy，plasma mass spectrometry and nuclear magnetic resonance techniques were employed to observe surface and internal microstructural changes in granite immersed for durations of 0，2，4，and 6 months. Optimization of the pore damage evolution model revealed that the pore damage threshold was not exceeded within the 6-month immersion period. Finally，Lastly，quantitative analysis of the temporal aspects of water-rock interactions distinguishes between chemical and pore damage mechanisms. The results indicate that physical and chemical interactions jointly promote pore development in granite，albeit with contrasting temporal behaviors: chemical interactions decelerate over time, whereas physical interactions exhibit an opposite trend.

Key words： rock mechanics granite water-rock interaction dynamic mechanical characteristics damage evolution temporal behaviors

引用本文:

黄耀莹1，翟越1，王铭2，李宇白1，李艳1. 水岩作用下花岗岩动态冲击压缩特性及损伤时效性研究[J]. 岩石力学与工程学报, 2024, 43(S2): 3759-3770.
HUANG Yaoying1，ZHAI Yue1，WANG Ming2，LI Yubai1，LI Yan1. Study on the influence of water-rock interaction time on dynamic impact compression characteristics and damage of granite. , 2024, 43(S2): 3759-3770.

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https://rockmech.whrsm.ac.cn/CN/10.13722/j.cnki.jrme.2023.0970 或 https://rockmech.whrsm.ac.cn/CN/Y2024/V43/IS2/3759

[1] YAO W，LI C，ZHANG H，et al. Multiscale study of physical and mechanical properties of sandstone in three gorges reservoir region subjected to cyclic wetting-drying of yangtze river water[J]. Rock Mechanics and Rock Engineering，2000，53(5)：2 215–2 231.
[2] LAFRANCE N，AUVRAY C，SOULEY M，et al. Impact of weathering on macro-mechanical properties of chalk：local pillar-scale study of two underground quarries in the Paris Basin[J]. Engineering Geology，2016，213(4)：107–119.
[3] DANG W，WU W，KONIETZKY H，et al. Effect of shear-induced aperture evolution on fluid flow in rock fractures[J]. Computers and Geotechnics，2019，114：103152.
[4] XIA K，CHEN C，LIU X，et al. Assessing the stability of high-level pillars in deeply-buried metal mines stabilized using cemented backfill[J]. International Journal of Rock Mechanics and Mining Sciences，2023，170：105489.
[5] TERZAGHI K. A method of calculating the permeability of clay from the history of hydrodynamic stress variation[J]. Mathematish Naturwissenschaftliche，1923，132(9)：105–124.
[6] ROY D，SINGH T，KODIKARA J，et al. Effect of water saturation on the fracture and mechanical properties of sedimentary rocks[J]. Rock Mechanics and Rock Engineering，2017，50(10)：2 585–2 600.
[7] ERGULER Z，ULUSAY R. Water-induced variations in mechanical properties of clay-bearing rocks[J]. International Journal of Rock Mechanics and Mining Sciences，2009，46(2)：355–370.
[8] 周翠英，邓毅梅，谭祥韶，等. 软岩在饱水过程中水溶液化学成分变化规律研究[J]. 岩石力学与工程学报，2004，23(22)：3 813–3 817. (ZHOU Cuiying，DENG Yimei，TAN Xiangshao，et al. Testing study on variation regularities of solution components in saturation of soft rocks[J]. Chinese Journal of Rock Mechanics and Engineering，2004，23(22)：3 813–3 817.(in Chinese))
[9] DYKE C，DOBEREINER L. Evaluating the strength and deformability of sandstones[J]. Quarterly Journal of Engineering Geology，1991，24(1)：123–134.
[10] ZHAO Z，YANG J，ZHOU D，et al. Experimental Investigation on the wetting-induced weakening of sandstone joints[J]. Engineering Geology，2017，225：61–67.
[11] CAI X，ZHOU Z，ZANG H，et al. Water saturation effects on dynamic behavior and microstructure damage of sandstone：Phenomena and mechanisms[J]. Engineering Geology，2020：105760.
[12] QIAO L，WANG Z，HUANG A. Alteration of mesoscopic properties and mechanical behavior of sandstone due to hydro-physical and hydro-chemical effects[J]. Rock Mechanics and Rock Engineering，2017，50(2)：255–267.
[13] SHANG D，ZHAO Z，DOU Z，et al. Shear behaviors of granite fractures immersed in chemical solutions[J]. Engineering Geology，2020，279：105869.
[14] 郭永春，周其健，屈智辉，等. 水岩相互作用下钙芒硝盐岩强度衰减机理[J]. 地下空间与工程学报，2021，17(4)：1 045–1 051.(GUO Yongchun，ZHOU Qijian，QU Zhiwei，et al. Strength attenuation mechanism of glauberite salt rock under water-rock interaction[J]. Chinese Journal of Underground Space and Engineering，2021，17(4)：1 045–1 051.(in Chinese))
[15] YANG X，WANG J，ZHU C，et al. Effect of wetting and drying cycles on microstructure of rock based on SEM[J]. Environmental Earth Sciences，2019，78(6)：183.
[16] 韩铁林，陈蕴生，师俊平，等. 水化学腐蚀对砂岩力学特性影响的试验研究[J]. 岩石力学与工程学报，2013，32(增2)：3 064–3 072. (HAN Tielin，CHEN Yunsheng，SHI Junping，et al. Experimental study of mechanical characteristics of sandstone subjected to hydrochemical erosion[J]. Chinese Journal of Rock Mechanics and Engineering，2013，32(Supp.2)：3 064–3 072.(in Chinese))
[17] 申林方，冯夏庭，潘鹏志，等. 单裂隙花岗岩在应力–渗流–化学耦合作用下的试验研究[J]. 岩石力学与工程学报，2010，29(7)：1 379–1 388.(SHEN Linfang，FENG Xiating，PAN Pengzhi，et al. Experimental research on mechano-hydro-chemical coupling of granite with single fracture[J]. Chinese Journal of Rock Mechanics and Engineering，2010，29(7)：1 379–1 388.(in Chinese))
[18] 丁捂秀，冯夏庭. 灰岩细观结构的化学损伤效应及化学损伤定量化研究方法探讨[J]. 岩石力学与工程学报，2005，24(8)：1 283–1 288. (DING Wuxiu，FENG Xiating. Study on chemical damage effect and quantitative analysis method of meso-structure of limestone[J]. Chinese Journal of Rock Mechanics and Engineering，2005，24(8)：1 283–1 288. (in Chinese))
[19] 赵志宏. 岩石裂隙水–岩作用机制与力学行为研究[J]. 岩石力学与工程学报，2021，40(增2)：3 063–3 073.(ZHAO Zhihong. Study on water-rock interaction and mechanical behaviors of single rock fractures[J]. Chinese Journal of Rock Mechanics and Engineering，2021，40(Supp.2)：3 063–3 073.(in Chinese))
[20] 李春，胡耀青，张纯旺，等. 不同温度循环冷却作用后花岗岩巴西劈裂特征及其物理力学特性演化规律研究[J]. 岩石力学与工程学报，2020，39(9)：1 797–1 807.(LI Chun，HU Yaoqing，ZHANG Chunwang，et al. Brazilian split characteristics and mechanical property evolution of granite after cyclic cooling at different temperatures[J]. Chinese Journal of Rock Mechanics and Engineering，2020，39(9)：1 797–1 807.(in Chinese))
[21] LYU Q，RANJITH P G，LONG X，et al. Experimental investigation of mechanical properties of black shale after CO2-water-rock interaction[J]. Materials，2016，9(8)：663.
[22] MENG F，LI Y，ZHAI Y，et al. Study on the effect of sandstone microscopic damage and dynamic compressive properties after heat treatment[J]. Rock Mechanics and Rock Engineering，2022，55(3)：1 271–1 283.
[23] 李天降，李子丰，赵彦超，等. 核磁共振与压汞法的孔隙结构一致性研究[J]. 天然气工业，2006，(10)：57–59.(LI Tianxiang，LI Zifeng，ZHAO Yanchao，et al. Consistency of pore structures between NMR and mercury intrusion method[J]. Natural Gas Industry，2006，(10)：57–59.(in Chinese))
[24] LI J，KAUNDA R，ZHOU K，et al. Experimental investigations on the effects of ambient freeze-thaw cycling on dynamic properties and rock pore structure deterioration of sandstone[J]. Cold Regions Science and Technology，2018，154：133–141.
[25] 张全胜，杨更社，任建喜. 岩石损伤变量及本构方程的新探讨[J]. 岩石力学与工程学报，2003，22(1)：30–34.(ZHANG Quansheng，YANG Gengshe，REN Jianxi，et al. New study of damage variable and constitutive equation of rock[J]. Chinese Journal of Rock Mechanics and Engineering，2003，22(1)：30–34.(in Chinese))
[26] MENG F，ZHAI Y，LI Y，et al. Research on the effect of pore characteristics on the compressive properties of sandstone after freezing and thawing[J]. Engineering Geology，2021，286：106088.
[27] 刘新荣，傅晏，郑颖人，等. 水岩相互作用对岩石劣化的影响研究[J]. 地下空间与工程学报，2012，8(1)：77–82.(LIU Xinrong，FU Yan，ZHENG Ying，et al. A review on deterioration of rock caused by water-rock interaction[J]. Chinese Journal of Underground Space and Engineering，2012，8(1)：77–82.(in Chinese))
[28] DOU Z H，GAO T，ZHAO Z，et al. Effect of immersion duration on shear behavior of granite fractures[J]. Rock Mechanics and Rock Engineering，2021，54(9)：4 809–4 823.