煤岩剪切–渗流耦合试验装置研制

doi:10.13722/j.cnki.jrme.2014.0717

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (1405 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要详细介绍自主研发的煤岩剪切–渗流耦合试验装置的结构和功能。该装置系统包括伺服控制加载系统，流体源加载系统，剪切盒及其密封系统，控制与数据采集系统，煤岩断面三维扫描系统5个部分。其中，剪切密封系统可实现高性能综合试验条件下密封效果良好；伺服控制加载系统可提供常法向(剪切)荷载、常法向(剪切)位移加载方式以及不同荷载加载速率与不同位移加载速率的加载方式，并可通过控制与数据采集系统对试验全过程进行实时操控；流体源加载系统可提供高至5 MPa水头压力或气压，并保持稳定；试件剪切变形、法向变形采用位移传感器与变形传感器双重监测手段，可保证高精度条件下完成剪切–渗流耦合试验；煤岩断面三维扫描系统可采集煤岩断面三维信息，便于进一步研究断面特征与裂隙渗流耦合机制。利用该装置对完整砂岩进行试验，结果表明：该煤岩剪切–渗流耦合试验装置满足预期试验功能要求，试验过程稳定，操作简便，试验数据精度高。既可应用于研究裂隙岩体的水力学特性及岩质边坡滑坡机制，也可应用于开展原岩地应力状态及采动影响条件下煤层内部煤岩剪切破断过程及其与煤层瓦斯渗透性耦合机制的试验研究。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章

关键词 ：岩石力学, 煤岩, 剪切, 渗流, 耦合机制, 三维扫描

Abstract：The structure and function of self-developed coal rock shear-flow coupling test device in great detail were presented. This device system consists of five parts：the servo control system，the source of fluid loading system，shear box and its sealing system，control and data acquisition system and the 3D scanning system for coal rock section. Among them，the self-developed shear sealing system can realize a good seal under high-performance and comprehensive experimental condition. The servo loading system can offer constant normal(shear) load，constant normal(shear) displacement loading mode，different loading rates and different displacement rates mode. And through control and data acquisition system，it can realize real-time monitoring of the whole process as well. For the source of fluid loading system，it can provide hydraulic pressure or air pressure up to 5 MPa and maintain stability. Using displacement sensor and deformation sensor to monitor the shear deformation of specimen and normal deformation can ensure the completeness of shear-flow coupling test under high precision. The 3D scanning system for coal rock section is used to collect the information of coal rock section，to further study the characteristics of failure section and coupling mechanisms of seepage. The test results of intact sandstone by this device show that the self-developed shear-flow coupling device can meet the expected functional requirement. It can ensure a stable test process and high accuracy of test data. It can be both used to study the hydraulic performance of joint rock mass and explore the landslide mechanism of rock slope，and perform the experimental study for the internal failure process of coal rock under the influences of original rock stress and mining dynamic pressure and the coupling mechanism of the permeability of coal gas.

Key words： rock mechanics coal rock shear flow coupling mechanism 3D scanning

引用本文:

许江1，2，刘义鑫1，2，尹光志1，2，李波波1，2，彭守建1，2，叶桂兵1，2. 煤岩剪切–渗流耦合试验装置研制[J]. 岩石力学与工程学报, 2015, 34(s1): 2987-2995.
XU Jiang1，2，LIU Yixin1，2，YIN Guangzhi1，2，LI Bobo1，2，PENG Shoujian1，2，YE Guibin1，2. DEVELOPMENT OF SHEAR-FLOW COUPLING TEST DEVICE FOR COAL ROCK. , 2015, 34(s1): 2987-2995.

链接本文:

http://www.rockmech.org/CN/10.13722/j.cnki.jrme.2014.0717 或 http://www.rockmech.org/CN/Y2015/V34/Is1/2987

[2]	JUPE A J. Induced microseismicity and the mechanical behaviour of jointed rock during the development of an HDR geothermal reservoir[Ph. D. Thesis][D]. Camborne：Camborne School of Mines，1990. " target="_blank">
[4]	OLSSON R，BARTON N. An improved model for hydromechanical coupling during shearing of rock joints[J]. International Journal of Rock Mechanics and Mining Sciences，2001，38(3)：317-329. " target="_blank">
[15]	李博，蒋宇静. 岩石单节理面剪切与渗流特性的试验研究与数值分析[J]. 岩石力学与工程学报，2008，27(12)：2 431-2 439. (LI Bo，JIANG Yujing. Experimental study and numerical analysis of shear and flow behaviors of rock with single joint[J]. Chinese Journal of Rock Mechanics and Engineering，2008，27(12)：2 431- 2 439.(in Chinese)) " target="_blank">
[19]	GIGER S B，CLENNELL M B，HARBERS C，et al. Design，operation and validation of a new fluid-sealed direct shear apparatus capable of monitoring fault-related fluid flow to large displacements[J]. International Journal of Rock Mechanics and Mining Sciences，2011，48(7)：1 160-1 172. " target="_blank">
[1]	蔡美峰. 岩石力学与工程[M]. 北京：科学出版社，2002：1.(CAI Meifeng. Rock mechanics and engineering[M]. Beijing：Science Press，2002：1.(in Chinese)) " target="_blank">
[6]	杨国宏，刘卫. 岩体不连续面的剪切渗流特性分析[J]. 城市道桥与防洪，2004，(3)：47-50.(YANG Guohong，LIU Wei. Analysis of shearing leakage characteristics of un-continuous face of rock mass[J]. Urban Roads Bridges and Flood Control，2004，(3)：47-50.(in Chinese)) " target="_blank">
[9]	徐礼华，谢妮. 岩石剪切裂隙渗流特性试验与理论研究[J]. 岩石力学与工程学报，2009，28(11)：2 249-2 257.(XU Lihua，XIE Ni. Test and theoretical research on permeability characteristics of shear fracture in rock mass[J]. Chinese Journal of Rock Mechanics and Engineering，2009，28(11)：2 249-2 257.(in Chinese)) " target="_blank">
[13]	夏才初，王伟，王筱柔. 岩石节理剪切-渗流耦合试验系统的研制[J]. 岩石力学与工程学报，2008，27(6)：1 285-1 291. (XIA Caichu，WANG Wei，WANG Xiaorou. Development of coupling shear-seepage test system for rock joints[J]. Chinese Journal of Rock Mechanics and Engineering，2008，27(6)：1 285-1 291.(in Chinese)) " target="_blank">
[14]	蒋宇静，王刚，李博，等. 岩石节理剪切渗流耦合试验及分析[J]. 岩石力学与工程学报，2007，26(11)：2 253-2 259. (JIANG Yujing，WANG Gang，LI Bo，et al. Experimental study and analysis of shear-flow coupling behaviors of rock joints[J]. Chinese Journal of Rock Mechanics and Engineering，2007，26(11)：2 253-2 259.(in Chinese)) " target="_blank">
[16]	王刚，蒋宇静，王渭明，等. 新型数控岩石节理剪切渗流试验台的设计与应用[J]. 岩土力学，2009，30(10)：3 200-3 208. (WANG Gang，JIANG Yujing，WANG Weiming，et al. Development and application of an improved numeric control shear-fluid coupled apparatus for rock joint[J]. Rock and Soil Mechanics，2009，30(10)：3 200-3 208.(in Chinese)) " target="_blank">
[18]	IKARI M J，SAFFER D M，MARONE C. Frictional and hydrologic properties of clay-rich fault gouge[J]. Journal of Geophysical Research：Solid Earth(1978-2012)，2009，114(B5)：346-346. " target="_blank">
[3]	JUPE A J，GREEN ASP，WALLROTH T. Induced microseismicity and reservoir growth at the Fjällbacka hot dry rocks project，Sweden[J]. International Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts，1992，29(4)：343-354. " target="_blank">
[5]	CHEN Z，NARAYAN S P，YANG Z，et al. An experimental investigation of hydraulic behaviour of fractures and joints in granitic rock[J]. International Journal of Rock Mechanics and Mining Sciences，2000，37(7)：1 061-1 071. " target="_blank">
[7]	于冰，陈兴华. 岩体裂隙渗流与应力耦合关系的实验研究[C]// 第二届全国青年岩石力学与工程学术研讨会论文集. [S. l.]：[s. n.]，1993：347-352.(YU Bing，CHEN Xinghua. Seepage in fractured rock and experimental study on stress coupling[C]// The Second Symposium on Nnational Youth of Rock Mechanics and Engineering. [S. l.]：[s. n.]，1993：347-352.(in Chinese)) " target="_blank">
[8]	刘亚晨，蔡永庆，刘泉声，等. 岩体裂隙结构面的温度-应力-水力耦合本构关系[J]. 岩土工程学报，2001，23(2)：196-200.(LIU Yachen，CAI Yongqing，LIU Quansheng，et al. Thermal-hydraulic- mechanical coupling constitutive relation of rock mass fracture interconnectivity[J]. Chinese Journal of Geotechnical Engineering，2001，23(2)：196-200.(in Chinese))
[10]	MAKURAT A，BARTON N，RAD N S，et al. Joint conductivity variation due to normal and shear deformation[C]//BARTON N，STEPHANSSON O ed. Proceedings of the International Symposium on Rock Joints. Rotterdam：A. A. Balkama，1990：535-540. " target="_blank">
[11]	ESAKI T，DU S，MITANI Y，et al. Development of a shear-flow test apparatus and determination of coupled properties for a single rock joint[J]. International Journal of Rock Mechanics and Mining Sciences，1999，36(5)：641-650. " target="_blank">
[12]	PARK H，OSADA M，MATSUSHITA T，et al. Development of coupled shear-flow-visualization apparatus and data analysis[J]. International Journal of Rock Mechanics and Mining Sciences，2013，63：72-81. " target="_blank">
[17]	BARLA G，BARLA M，MARTINOTTI M E. Development of a new direct shear testing apparatus[J]. Rock Mechanics and Rock Engineering，2010，43(1)：117-122.