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基于次加载面理论改进的ALPHA模型及其数值实施 被引量:2

A modified ALPHA model based on subloading surface theory and its numerical implementation
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摘要 基于次加载面理论对ALPHA模型进行了改进,并在模型中考虑了土体初始各向异性;提出了与模型相适应的半隐式本构积分算法,据此在通用有限元软件ABAQUS平台上开发了相应的用户材料子程序;利用建立的计算程序,对不同排水条件的三轴试验进行了数值模拟。与已有研究成果对比表明,提出的半隐式本构积分算法,可较好地实现复杂本构模型的数值实施。改进的本构模型克服了修正剑桥模型预测的超固结土峰值强度过高、初始屈服面内假定为弹性变形等缺点,能够较好地描述土体初始屈服面内的的非线性和不可恢复性变形特征;通过变化模型参数,可模拟变形特性较为复杂的土体。 APHA model is modified based on subloading surface theory; and the initial anisotropy induced by settlement is also considered. Cnsidering the characters of the modified model, a semi-implicit constitutive integration algorithm is proposed. In terms of the algorith, a user material subroutine is developed in the framework of general-purpose finite element code ABAQUS. Using the subroutinesimulations for triaxial tests are performed; and the results have been compared with the published studies. The comparison shis that the presented algorithms are capable of the numerically implementing of complicated constitutive model; and the modified A^HA model, which overcomes the deficiencies of modified Cam-Clay model, such as predicting higher peak strength for over consolated clay and assuming elastic deformation inside the initial yield surface, can depict the nonlinear and nonrecoverable dormation before yielding. Through varying model parameters, more complicated deformation behaviors can be simulated by the ridified model.
作者 詹云刚 袁凡凡 栾茂田
机构地区 江苏科技大学船舶与海洋工程学院 中国科学院武汉岩土力学研究所岩土力学与工程国家重点实验室 大连理工大学土木水利学院岩土工程研究所 大连理工大学海岸和近海工程国家重点实验室
出处 《岩土力学》 EI CAS CSCD 北大核心 2010年第2期407-415,共9页 Rock and Soil Mechanics
基金 国家自然科学基金重点项目(No.50639010) 国家自然科学基金项目(No.50509023)
关键词 ALPHA模型 次加载面模型 半隐式本构积分算法 ABAQUS ALPF model subloading surface theory semi-implicit constitutive integration algorithm ABAQUS
分类号 TU44 [建筑科学—岩土工程]
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参考文献10

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同被引文献29

  • 1徐舜华,郑刚,姜岩.A critical state subloading surface model of sands with shear hardening[J].Journal of Central South University,2008,15(S2):93-100. 被引量:3
  • 2孔亮,花丽坤,郑颖人.土体循环塑性模型研究进展[J].水利水运工程学报,2004(4):61-69. 被引量:4
  • 3胡小荣,俞茂宏.材料三剪屈服准则研究[J].工程力学,2006,23(4):6-11. 被引量:24
  • 4HASHIGUCHI K. Plastic constitutive equations of granular materials[C]// Proceedings of US-Japan Seminar Continuum Mechanics and Statistical Approaches in the Mechanics of Granular Materials. Sendai:JSSMFE,1978:321-329.
  • 5HASHIGUCHI K. Constitutive equations of elastoplastic materials with elastoplastic transition[J].Journal of Applied Mechanics.1980,47(2):266-272.
  • 6HASHIGUCHI K. Subloading surface model in unconventional plasticity[J].International Journal of Solids and Structures.1989,25(8):917-945.
  • 7NAKAI T,HINOKIO M. A simple elastoplastic model for normally and over consolidated soils with unified material parameters[J]. Soils and Foundations,2004,44(2):53-70.
  • 8ASAOKA A,NAKANO M,NODA T,et al. Delayed compression/ consolidation of naturally clay due to degradation of soil structure[J]. Soils and Foundations,2000,40(3):75-85.
  • 9ASAOKA A,NAKANO M,NODA T. Superloading yield surface concept for highly structured soil behavior[J]. Soils and Foundations,2000,40(2):99-110.
  • 10ASAOKA A,NODA T,YAMADA E,et al. An elastoplastic description of two distinct volume change mechanisms of soils[J]. Soils and Foundations,2002,42(5):47-57.

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岩土力学
2010年 第2期

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