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Applied Mathematics and Mechanics (English Edition) ›› 2002, Vol. 23 ›› Issue (7): 842-853.

• 论文 • 上一篇    下一篇

A STRESS VECTOR-BASED CONSTITUTIVE MODEL FOR COHESIONLESS SOIL (Ⅱ)-APPLICATION

史宏彦1, 谢定义2, 白琳1   

  1. 1. Construction College, Guangdong University of Technology, Guangzhou 510643, P R China;
    2.Institute of Geotechnical Engineering, Xi’an University of Technology, Xi’an 710048, P R China
  • 收稿日期:2001-08-30 修回日期:2002-01-20 出版日期:2002-07-18 发布日期:2002-07-18

A STRESS VECTOR-BASED CONSTITUTIVE MODEL FOR COHESIONLESS SOIL (Ⅱ)-APPLICATION

SHI Hong-yan1, XIE Ding-yi2, BAI Lin1   

  1. 1. Construction College, Guangdong University of Technology, Guangzhou 510643, P R China;
    2.Institute of Geotechnical Engineering, Xi’an University of Technology, Xi’an 710048, P R China
  • Received:2001-08-30 Revised:2002-01-20 Online:2002-07-18 Published:2002-07-18

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摘要: The stress vector-based constitutive model for cohesionless soil, proposed by SHI Hong-yan et al., was applied to analyze the deformation behaviors of materials subjected to various stress paths. The result of analysis shows that the constitutive model can capture well the main deformation behavior of cohesionless soil, such as stress-strain nonlinearity, hardening property, dilatancy, stress path dependency, non-coaxiality between the principal stress and the principal strain increment directions, and the coupling of mean effective and deviatoric stress with deformation. In addition, the model can also take into account the rotation of principal stress axes and the influence of intermediate principal stress on deformation and strength of soil simultaneously. The excellent agreement between the predicted and measured behavior indicates the comprehensive applicability of the model.

Abstract: The stress vector-based constitutive model for cohesionless soil, proposed by SHI Hong-yan et al., was applied to analyze the deformation behaviors of materials subjected to various stress paths. The result of analysis shows that the constitutive model can capture well the main deformation behavior of cohesionless soil, such as stress-strain nonlinearity, hardening property, dilatancy, stress path dependency, non-coaxiality between the principal stress and the principal strain increment directions, and the coupling of mean effective and deviatoric stress with deformation. In addition, the model can also take into account the rotation of principal stress axes and the influence of intermediate principal stress on deformation and strength of soil simultaneously. The excellent agreement between the predicted and measured behavior indicates the comprehensive applicability of the model.

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