An effective combined framework for modelling the time-dependent behaviour of soft structured clays

被引:0
作者
Miguel A. Mánica
Antonio Gens
Efraín Ovando-Shelley
Eduardo Botero
Jean Vaunat
机构
[1] National Autonomous University of Mexico,Institute of Engineering
[2] Universitat Politècnica de Catalunya,Department of Civil and Environmental Engineering
[3] Barcelona Tech - CIMNE,undefined
来源
Acta Geotechnica | 2021年 / 16卷
关键词
Plasticity–creep partition; Soft clay; Structuration; Time dependency; Viscoplasticity;
D O I
暂无
中图分类号
学科分类号
摘要
A constitutive framework for the simulation of the time-dependent behaviour of soft structured clays has been developed from the combination of a number of existing modelling approaches. The formulation accounts, in a natural way, for time-dependent phenomena such as loading rate dependency, stress relaxation, ageing, and creep deformations under constant load. In addition, the effect of structure is accounted for. To demonstrate the potential of the proposed approach, a specific model based on this framework is described and applied to the simulation of a number of relevant laboratory tests from the literature.
引用
收藏
页码:535 / 550
页数:15
相关论文
共 132 条
  • [21] Kavazanjian E(2000)A constitutive model for structured soils Géotechnique 50 263-273
  • [22] Burland JB(2001)Modeling the viscoplastic behaviour of clays during consolidation: application to Berthierville clay in both laboratory and field conditions Can Geotech J 38 484-497
  • [23] Casagrande A(2005)An elasto-viscoplastic model for clay considering destructuralization and consolidation analysis of unstable behavior Soils Found 45 29-42
  • [24] Wilson SD(2015)Cyclic elastoviscoplastic constitutive model for clay considering nonlinear kinematic hardening rules and structural degradation Int J Geomech 15 1-14
  • [25] Chaboche JL(1991)Anisotropy of normally consolidated San Francisco Bay mud Geotech Test J 14 231-246
  • [26] Chapuis RP(1998)Experimental study of drained creep behavior of sand J Eng Mech 124 912-920
  • [27] Aubertin M(1964)Compressibility of clay J Soil Mech Found Div 90 133-156
  • [28] Contesti E(1985)Stress–strain–strain rate relation for the compressibility of sensitive natural clays Géotechnique 35 159-180
  • [29] Cailletaud G(1996)Strain rate and structuring effects on the compressibility of a young clay Geotech Spec Publ 61 137-150
  • [30] Degago SA(1990)The general and congruent effects of structure in natural soils and weak rocks Géotechnique 40 467-488
12345678910