水电边坡岩体稳定性分级系统研究

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (0 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要边坡岩体稳定性分级多源于地下工程，并未考虑边坡与地下工程岩体破坏机制的差异，为弥补这一缺陷，提出一种基于边坡破坏机制的分级方法。以水电边坡为样本，分析收集平面破坏模式下的边坡几何形态、岩石强度、岩体完整性、结构面特征、坡面与结构面组合关系、工程环境、气象条件及破坏历史8个岩体稳定性影响因素；运用多元线性回归探索影响因素和边坡岩体稳定性之间的关系，得到各因素的权值；剔除权值近于0的因素，建立边坡岩体稳定性分级系统。与已有边坡岩体分级系统(SMR，CSMR)的比较表明：SRSC的评价结果更接近于基于边坡实际稳定情况的经验评分，标准误差最小，评价准确率最高。另外，用12个水电边坡对该系统进行准确性及适用性分析，评价结果准确率为100%，表明SRSC分级系统的评判效果良好。因此，基于边坡破坏机制的SRSC系统是一种更优的边坡岩体分级方法。

	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 ：水电工程, 边坡岩体稳定性分级, 平面破坏, 影响因素, 边坡岩体分级, 中国水电边坡岩体分级

Abstract：Most slope rockmass rating originated or amended from rockmass classification designed for underground engineering，those classification systems don?t take into account the influence of failure-mechanism differences on slopes. To make up this theoretical defects of slope rockmass classification，this paper presents a rockmass classification based on slope failure mechanism. In this study，hydropower slopes were used as samples for the establishment of this classification system；eight impact factors for potential planar or already plane failed slopes were analyzed and collected，these factors are the slope geometry，the intact rock strength，the rockmass integrity features，the discontinuities characteristics，the geometrical relationship between discontinuities and slope，the engineering environment，the climate conditions and the failure history；then the multiple linear regression method was used to explore the relationship between the slope rockmass stability and the impact factors，the weights of each factor was obtained hereafter；and finally，the slope rockmass stability classification (SRSC) system was established by eliminating the factors whose weights were almost zero. Compared with the existing slope rockmass rating(SMR，CSMR) system，SRSC system?s evaluation results are closer to the experience scores which based on field condition，standard error is smaller，and evaluation accuracy rate is larger；moreover，twelve hydropower slopes were used to verify SRSC?s accuracy and applicability，correctness rate of evaluation is 100%，which indicates excellent evaluation results of SRSC system. Thus SRSC system based on slope failure mechanism is a superior rockmass classification system for slopes.

Key words： hydropower project slope rockmass stability classification planar failure impact factors slope rockmass rating(SMR) Chinese slope rockmass rating(CSMR)

收稿日期: 2010-07-02

引用本文:

张菊连1，沈明荣1，2. 水电边坡岩体稳定性分级系统研究[J]. 岩石力学与工程学报, 2011, 30(S2): 3481-3490.
ZHANG Julian1，SHEN Mingrong1，2. STUDY OF HYDROPOWER SLOPE ROCKMASS STABILITY CLASSIFICATION SYSTEM. , 2011, 30(S2): 3481-3490.

链接本文:

http://www.rockmech.org/CN/Y2011/V30/IS2/3481

[4]	ROMANA M. New adjustment ratings for application of Bieniawski classification to slopes[C]// Proceedings of the International Symposium on Role of Rock Mechanics ISRM. Zacatecas，Mexico：[s.n.]，1985：49-53. " target="_blank">
[6]	孙东亚，陈祖煜，杜伯辉，等. 边坡稳定评价方法RMR-SMR体系及其修正[J]. 岩石力学与工程学报，1997，16(4)：297-304.(SUN Dongya，CHEN Zuyu，DU Bohui，et al. Method of slope stability analysis RMR-SMR and its modification[J]. Chinese Journal of Rock Mechanics and Engineering，1997，16(4)：297-304.(in Chinese))
[9]	赵立冬. 天山公路边坡岩体质量分级研究[硕士学位论文][D]. 成都：成都理工大学，2007.(ZHAO Lidong. Study on slope rockmass quality classification of Tianshan road[M. S. Thesis][D]. Chengdu：Chengdu University of Technology，2007.(in Chinese)) " target="_blank">
[15]	中华人民共和国国家标准编写组. GB50330—2002建筑边坡工程技术规范[S]. 北京：中国建筑工业出版社，2009：66-67.(The National Standards Compilation Group of People?s Republic of China. GB50330—2002 Technical codes for building slope engineering[S]. Beijing：China Architecture and Building Press，2009：66-67.(in Chinese)) " target="_blank">
[17]	中国水利水电科学研究院岩土工程研究所. 中国水利水电工程边坡登录数据库[DB/OL]. http：//www.geoeng.iwhr.com.(Geotechnical Engineering Department of Water Resources and Hydropower Research Institute. Water resources and hydropower engineering slope log database[DB/OL]. http：//www.geoeng.iwhr.com.(in Chinese)). " target="_blank">
[7]	王哲. 西南山区高等级公路岩质边坡稳定性分级研究[硕士学位论文][D]. 成都：成都理工大学，2004.(WANG Zhe. Study on rock slope stability classification of southwestern mountain highway[M. S. Thesis][D]. Chengdu：Chengdu University of Technology，2004.(in Chinese)) " target="_blank">
[12]	HACK R. An evaluation of slope stability classification[C]// Proceedings of the EUROCK 2002. Madeira：Portugal Press，2002：3-32. " target="_blank">
[18]	LYSANDROS P. Rock slope stability assessment through rockmass classification systems[J]. International Journal of Rock Mechanics and Mining Sciences，2009，46(2)：315-325.
[20]	DEERE D. Technical description of rock cores for engineering purposes[J]. Rock Mechanics and Engineering Geology，1963，1(1)：17-22. " target="_blank">
[2]	BIENIAWSKI Z T. Engineering rockmass classifications[M]. New York：Publ. Wiley，1989：251. " target="_blank">
[3]	中华人民共和国国家标准编写组. GB50218—94工程岩体分级标准[S]. 北京：中国计划出版社，1995.(The National Standards Compilation Group of People?s Republic of China. GB50218—94 Standard of Engineering classification of rock masses[S]. Beijing：China Planning Press，1995.(in Chinese)) " target="_blank">
[10]	张元才，黄润秋，赵立冬，等. 天山公路边坡岩体质量评价TSMR体系研究[J]. 岩石力学与工程学报，2010，29(3)：617-623. (ZHANG Yuancai，HUANG Runqiu，ZHAO Lidong，et al. Study of Tianshan slope rockmass rating(TSMR) system[J]. Chinese Journal of Rock Mechanics and Engineering，2010，29(3)：617-623.(in Chinese))
[1]	BIENIAWSKI Z T. Rockmass classifications in rock engineering[C]// Proceeding of Symposium on Exploration for Rock Engineering. Rotterdam：Balkema，1976：97-106. " target="_blank">
[5]	ROMANA M. SMR classification[C]// Proceedings of the 7th Conference on Rock Mechanics ISRM. Aachen：Wittke：[s.n.]，1991：955-960. " target="_blank">
[8]	石豫川. 山区高等级公路层状岩质边坡稳定性HSMR快速评价体系研究[博士学位论文][D]. 成都：成都理工大学，2007.(SHI Yuchuan. Rock slope stability rapid assessment system HSMR for mountain highway[Ph. D. Thesis][D]. Chengdu：Chengdu University of Technology，2007.(in Chinese)) " target="_blank">
[11]	HACK R. Slope stability probability classification(SSPC)[M]. Delft：International Institute for Aerospace Survey and Earth Sciences，1996：258. " target="_blank">
[13]	HACK R，PRICE D，RENGERS N. A new approach to rock slope stability—a probability classification(SSPC)[J]. Bulletin of Engineering Geology and the Environment，2003，62(2)：167-184.
[14]	SHUK T. Key elements and applications of the natural slope methodology(NSM) with some emphasis on slope stability aspects[C]// Proceedings of the 4th South American Conference on Rock Mechanics. Santiago de Chile：Pergamon Press，1994：255-266. " target="_blank">
[16]	中华人民共和国行业标准编写组. SL/386—2007水利水电工程边坡设计规范[S]. 北京：中国水利水电出版社，2009：43-44.( The Professional Standards Compilation Group of People?s Republic of China. SL/386—2007 Water resources and hydropower engineering slope design[S]. Beijing：China Water Power Press，2009：43-44.(in Chinese)) " target="_blank">
[19]	沈明荣，陈建峰. 岩体力学[M]. 上海：同济大学出版社，2006：106.(SHEN Mingrong，CHEN Jianfeng. Rock mechanics[M]. Shanghai：Tongji University Press，2006：106.(in Chinese)) " target="_blank">
[21]	PALMSTROM A. The volumetric joint count—a useful and simple measure of the degree of rockmass jointing[C]// Proceedings of the 4th Conference International Association of Engineering Geology. New Delhi，India：Oxford and IBH Publ.，1982：221-228. " target="_blank">
[22]	PRIEST S D，HUDSON J A. Estimation of discontinuity spacing and trace length using scanline surveys[J]. International Journal of Rock Mechanics and Mining Sciences and Geomechanics Abstracts，1981，18(3)：183-197. " target="_blank">
[23]	陆兆溱. 工程地质学[M]. 北京：中国水利水电出版社，2000：171-173.(LU Zhaoqin. Engineering geology[M]. Beijing：China Water Power Press，2000：171-173.(in Chinese)) " target="_blank">
[24]	冯君，宋胜武，周德培，等. 考虑边坡开挖中地应力释放的改进Sarma法[J]. 地下空间与工程学报，2009，5(1)：50-54.(FENG Jun，SONG Shengwu，ZHOU Depei，et al. Improved SARMA method with considering the release of earth stress during slope excavation[J]. Chinese Journal of Underground Space and Engineering，2009，5(1)：50-54.(in Chinese)) " target="_blank">
[25]	LIU Y C，CHEN C S. A new approach for application of rockmass classification on rock slope stability assessment[J]. Engineering Geology，2007，89(1-2)：129-143. " target="_blank">
[26]	王静龙，梁小筠. 定性数据统计分析[M]. 北京：中国统计出版社，2008：77-79.(WANG Jinglong，LIANG Xiaojun. Qualitative data statistical analysis[M]. Beijing：China Statistics Press，2008：77-79. (in Chinese)) " target="_blank">
[27]	WICKHAM G E，TIEDEMANN H R，SKINNER E H. Support determinations based on geologic predictions[C]// Proceedings of the 1st North American Rapid Excavation and Tunneling Conference，AIME. New York：[s.n.]，1972：43-64. " target="_blank">