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Improved shape hardening function for bounding surface model for cohesive soils 被引量:1

Improved shape hardening function for bounding surface model for cohesive soils
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摘要 A shape hardening function is developed that improves the predictive capabilities of the generalized bounding surface model for cohesive soils, especially when applied to overconsolidated specimens. This improvement is realized without any changes to the simple elliptical shape of the bounding surface, and actually reduces the number of parameters associated with the model by one. A shape hardening function is developed that improves the predictive capabilities of the generalized bounding surface model for cohesive soils, especially when applied to overconsolidated specimens. This improvement is realized without any changes to the simple elliptical shape of the bounding surface, and actually reduces the number of parameters associated with the model by one.
作者 Andrés Nieto-Leal Victor N.Kaliakin
机构地区 Department of Civil & Environmental Engineering Department of Civil Engineering
出处 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2014年第4期328-337,共10页 岩石力学与岩土工程学报(英文版)
基金 supported by the Fulbright Colombia-Colciencias Scholarship and Universidad Militar Nueva Granada
关键词 Constitutive model Bounding surface plasticity Shape hardening function Clay Constitutive model Bounding surface plasticity Shape hardening function Clay
分类号 TU43 [建筑科学—岩土工程]
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同被引文献18

  • 1廖秋林,李晓,李守定,董艳辉.三峡库区千将坪滑坡的发生、地质地貌特征、成因及滑坡判据研究[J].岩石力学与工程学报,2005,24(17):3146-3153. 被引量:118
  • 2黄润秋.20世纪以来中国的大型滑坡及其发生机制[J].岩石力学与工程学报,2007,26(3):433-454. 被引量:1139
  • 3Duncan J M, Chang C. Nonlinear analysis of stressand strain in soils [J]. Journal of the Soil Mechanics and Foundations Division, ASCE, 1970, 96 (SMS): 1629 1653.
  • 4Kondner R L. Hyperbolic stress-strain response Cohesive soils [J]. Journal o{ Soil Mechanics and Foundation Division, 1963,89 ( 1 ) : 115-143.
  • 5Schanz T, Vermeer P A, Bonnier P G. The hardening soil model: Formulation and verification [J]. Beyond 2000 in Computational Geotechnics. Balkema, Rotterdam, 1999 : 281-297.
  • 6Massey C I, Petley D N. Patterns of movement in reactivated landslides [J]. Engineering Geology, 2013, 159:1-19.
  • 7Miao H B,Wang G H. Mechanism of the slow-moving landslides in jurassic red-strata in the Three Gorges Reservoir, China [J]. Engineering Geology, 2014,171 : 59-69.
  • 8di Maio C. Plastic and viscous shear displacements of a deep and very slow landslide in stiff clay formation [J]. Engineering Geology, 2013,16 2 : 5 3-6 6.
  • 9Luo H Y, William L C. Effects of particle size and moisture on the compressive behavior of dense Eglin sand under confinement at high strain rates [J]. International Journal of Impact Engineering, 2014, 65: 40-55.
  • 10Sadrekarimi A. Influence of fines content on liquefied strength of silty sands [J ]. Soil Dynamic sand Earthquake Engineering, 2013,55 : 108-119.

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Journal of Rock Mechanics and Geotechnical Engineering
2014年 第4期

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