Ghazvinian AH, Taghichian A (2010) The shear behavior of beddingplanes of weakness between two different rock types with highstrength difference. Rock Mech Rock Eng 43:69–87Gioda G, Locatelli L (1999) Back analysis of the measurementsperformed during the excavation of a shallow tunnel in sand.Numer Anal Methods Geomech 23:1407–1425Goodman RE (1976) Methods of geological engineering in discon-tinuous rocks. West Publishing Company, St. PaulGoodman RE, Gen HS (1985) Block theory and its application to rockengineering. Prentice-Hall, Englewood CliffsGrasselli G, Egger P (2003) Constitutive law for the shear strength ofrock joints based on three-dimensional surface parameters. Int JRock Mech Min Sci 40:25–40Haberfield CM, Johnston IW (1994) A mechanistically-based modelfor rough rock joint. Int J Rock Mech Min Sci Geomech Abstr31:279–292Hatzor ML (1997) The shear strength of clay-filled bedding planes inlimestones—backanalysis of a slope failure in a phosphate mine,Israel. Geotech Geol Eng 15:263–282Hoek E, Bray JW (1981) Rock slope engineering, 3rd edn. Institutionof Mining and Metallurgy, LondonHudson JA (1974–2006) The complete ISRM suggested methods forrock characterization, testing and monitoringIndraratna B, Haque A (2000) Shear behaviour of rock joints.Balkema, RotterdamJaeger JC (1971) Friction of rocks and stability of rock slopes.Geotechnique 21:97–134Kaiser P, Zou D, Lang P (1990) Stress determination by back analysisof excavation-induced stress changes-a case study. Rock MechRock Eng 23(3):185–200Kodikara JK, Johnston IW (1994) Shear behaviour of irregulartriangular rock–concrete joints. Int J Rock Mech Min SciGeomech Abstr 31(4):313–322Ladanyi B, Archambault G (1970) Simulation of shear behaviour of ajointed rock mass. In: Proceedings of the 11th symposium onrock mechanics. AIME, New York, pp 105–125Ladanyi B, Archambault G (1977) Shear strength and deformabilityof filled indented joints. In: International symposium on thegeotechnics of structurally complex formations, vol 2. AGI,Capri, pp 317–326Maksimovic M (1996) The shear strength components of a rough rockjoint. Int J Rock Mech Min Sci Geomech Abstr 33:185–200Mostafa S, Mohsen S, Mohammad D (2010) Back analysis of anexcavated slope failure in highly fractured rock mass: the casestudy of Kargar slope failure (Iran). Environ Earth Sci 60:183–192Okubo S, Nishiatsu Y (1993) Control performance of servo-controlledtesting mechanics in compression and creep tests. Int J RockMech Min Sci Geomech Abstr 30(3):247–255Patton FD (1966) Multiple modes of shear failure in rock. In:Proceedings of the 1st congress of ISRM, vol 1. Laboratoriorionacional de engenharia civil, Lisboa, pp 509–513Saeb S, Amadei B (1992) Modelling rock joints under shear andnormal loading. Int J Rock Mech Min Sci Geomech Abstr29(3):267–278Sakurai S, Takeuchi K (1983) Back analysis of measured displace-ments of tunnels. Rock Mech Rock Eng 16(3):173–180Terzaghi K (1962) Stability of steep slopes on hard unweathered rock.Geotechnique 12:251–270Zhang LQ, Yue ZQ, Yang ZF, Qi JX, Liu FC (2006) A displacement-based backanalysis method for rock mass modulus and horizon-tal in situ stress in tunneling—illustrated with a case study. TunnUndergr Space Technol 21(6):639–649
摘要:分析和研究结果显示:九顶山滑坡的滑动面沿软弱的石灰石夹层(粘土填充)并且滑动块被斜坡上的节理分离。更早的研究结果表明,对于粗糙的、上上下下的结构平面,当坡比大于2.0时,结构表面的剪力强度非常接近其填充强度。根据以前的理论,这方面的不足必须由粘土填充。但在这项研究中,这方面的缺陷是后分析的。而且,对于在野外采集的样本,内填充的剪切强度是经过实验室剪力实验测试的。这种缺陷不能被剪力强度参数的实验室结果所解释。为了模拟野外场地条件,对于脆弱的夹层,滑坡表面的真实的强度参数由原位剪切实验测定。经过原位实验,结果表明缺陷沿着粘土填充物和石灰石边界的联系启动,但是不是通过粘土本身启动。通过联系层的表层是粘土-石灰石的接口,它们之间的凝聚力不是0但是也不能忽略它们之间的凝聚力。 石灰石夹层顺层滑坡分析英文文献和中文翻译(6):http://www.751com.cn/fanyi/lunwen_54410.html