Study on Stability of Rock at Reservoir Banks Slop Based on AHP

Zhi Jun Zhou; Han Liang; Xiao Dong Wang

doi:10.4028/www.scientific.net/AMM.204-208.2309

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 204-208Study on Stability of Rock at Reservoir Banks Slop...

Study on Stability of Rock at Reservoir Banks Slop Based on AHP

Abstract:

The paper aims to present the authors’ research on application of engineering fuzzy set theory analysis to reservoir ranks rock slop stability evaluation by using analytic hierarchy processing (AHP). Many methods, which used to analysis highway slope stability, are compared in the paper. On the basis of research on the general slope stability evaluation methods, lots of fuzzy factors of stability evaluation for highway slope are researched and fuzzy comparison matrix model is established. Correspondence relationship between mood operator and fuzzy value are determined. Evaluation indexes and grading standards are identified on the basis of engineering practice. The weight of every index is obtained by using analytic hierarchy processing and the method of Ridge-type distribution, which the method of combining with the bigger the more excellent and the smaller the more excellent. Engineering fuzzy set theory is used to make a comprehensive evaluations, overall evaluation of the highway slope stability is obtained according to the principle of maximum degree of subjection and the result of subjection degree vector. Slope stability evaluation of AN-SHAN Expressway is analyzed with analytical hierarchy process. Evaluation results provide a basis for the progress of the project, and the project carried out smoothly with the guidance of it. The results show that the model makes slope stability evaluation more comprehensive, scientific and rational.

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Periodical:

Applied Mechanics and Materials (Volumes 204-208)

Pages:

2309-2317

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.204-208.2309

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Online since:

October 2012

Authors:

Zhi Jun Zhou, Han Liang, Xiao Dong Wang

Keywords:

Analysis Hierarchy Process (AHP), Reservoir Banks Slop, Road Engineering, Stability Evaluation

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References

[1] Wang Sichang,She Xuesen,Li Yi. Stability analysis of rock slope based on cusp catastrophe theiry[J]Journal of Traffic and Transportation Engineering, 2010. 10 (3) 23-27.

Google Scholar

[2] WANG Hanhui, WANG Junxing, WANG Kaizhi. Plastic limit analysis of slope stability using finite element[J].Rock and Soil Mechanics, 2003, 24(5): 733–738.(in Chinese)

Google Scholar

[3] WANGJunxing, WANG Hanhui, WU Yafeng.Stability analysis of soil slope by finite element method with plastic limit upper bound[J].Chinese Journal of Rock Mechanics and Engineering, 2004, 23(11): 1867–1873.(in Chinese)

Google Scholar

[4] Yan Ronggui, Li Wenxiu. Probability integral for analyzing stability of stochastic fissured slopes in open-pit coal mines[J].Journal of China Coal Society, 1983, 12(3): 65–76.(in Chinese)

Google Scholar

[5] LIN Lixiang, XU Hanbin.Reliability approach to the analysis of slope stability[J].Journal of Mountain Science, 1999, 17(3): 235–239.(in Chinese)

Google Scholar

[6] Zhang Xiaohui, Wang Hui, Dai Fuchu, et al. Comprehensive evaluation of slope stability using interaction matrix and fuzzy sets[J]. Chinese Journal of Rock Mechanics and Engineering, 2000, 19(3): 346–351.(in Chinese)

Google Scholar

[7] Lu Caijin, Hu Houtian, Xu Jianping.Application of improvedback-propagation network in the evaluation of rail way rock slope[J]. Chinese Journal of Rock Mechanics and Engineering, 1999, 18(3): 303–307.(in Chinese)

Google Scholar

[8] Xie Quanmin, Xia Yuanyou. Extension classification prediction method for the stability of rock-mass slopes[J]. Chinese Journal of Rock Mechanics and Engineering, 2003, 22(3): 438–441.(in Chinese)

Google Scholar

[9] Xu Linsheng,Wang Lansheng. Research on rockburst character and prevention measure of Erlang Mountain highway tunnel[J] China Journal of Highway and Transport, 2003, 16 (1) : 74-76

Google Scholar

[10] Liu Ming,Huang Hua,Han Bing,Liu Boquan. Analysis on double-row anti-slide piles of slope in Yanan[J]. Journal of Chang'an University(Natural Science Edition) , 2011, 31 (2) 63-67

Google Scholar

[11] Huang Jianwen,Li Jianlin,Zhou Yihong. Application of fuzzy analysis based on AHP to slope stability evaluation. Chinese Journal of Rock Mechanics and Engineering,2007.7

Google Scholar

[12] Wang Xuhua,Chen Shouyu,Chen Xiaoyun. Study on normal distribution characteristics of creep curves of slope deformation and weight determination with fuzzy optimization. Chinese Journal of Rock Mechanics and Engineering, 2005, 24 (19) 3487-3491

Google Scholar

[13] Chen Shou-yu, Engineering fuzzy set theory and application [M]Beijing: National Defense Industry Press,(1998)

Google Scholar

[14] Chen Shouyu, Guo Yu. Model of variable fuzzy set and its application to classification prediction of rock burst [J].Chinese Journal of Rock Mechanics and Engineering,2005,24(8):4603-4609

Google Scholar

[15] Liu Puda,Wu Mengda. Fuzzy theory and application [M]Changsha: University of Defense Technology Press,(1998)

Google Scholar

[16] Xiao Shengxie,Wang Pingyi,Lv enlin. Fuzzy mathematics application in civil and hydraulic engineering

Google Scholar