A Thermo-elastoplastic Constitutive Model for Soil and Its Application in Multiply Phase Coupling Numerical Simulation

包小华; 熊勇林; 崔宏志; 明海燕

doi:10.13409/j.cnki.jdpme.2017.04.011

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A Thermo-elastoplastic Constitutive Model for Soil and Its Application in Multiply Phase Coupling Numerical Simulation

更新时间：2025-12-11

- A Thermo-elastoplastic Constitutive Model for Soil and Its Application in Multiply Phase Coupling Numerical Simulation
- Vol. 37, Issue 4, Pages: 577-585(2017)
- 作者机构：
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- DOI：10.13409/j.cnki.jdpme.2017.04.011
  CLC： U43
- Published：2017
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[1]包小华,熊勇林,崔宏志,明海燕.热弹塑性土体本构模型及在多场耦合数值模拟中的应用[J].防灾减灾工程学报,2017,37(04):577-585.

包小华, 熊勇林, 崔宏志, et al. A Thermo-elastoplastic Constitutive Model for Soil and Its Application in Multiply Phase Coupling Numerical Simulation[J]. 2017, 37(4): 577-585.
[1]包小华,熊勇林,崔宏志,明海燕.热弹塑性土体本构模型及在多场耦合数值模拟中的应用[J].防灾减灾工程学报,2017,37(04):577-585. DOI： 10.13409/j.cnki.jdpme.2017.04.011.

包小华, 熊勇林, 崔宏志, et al. A Thermo-elastoplastic Constitutive Model for Soil and Its Application in Multiply Phase Coupling Numerical Simulation[J]. 2017, 37(4): 577-585. DOI： 10.13409/j.cnki.jdpme.2017.04.011.

摘要

采用热等效应力的概念

提出一种新的热弹塑性饱和/非饱和土本构模型

其在正常屈服面以内仍然会发生塑性应变。该模型通过以饱和度和土骨架应力为状态变量

能够统一描述饱和、非饱和土体的热力学特性;还采用上下负荷面概念

考虑了土的结构和超固结发展特性。所提出的本构模型可以很好地展现饱和/非饱和土体在不同温度条件下固结压缩实验和三轴实验中的压缩和应力应变特性。将该模型导入土-水-气-热多场耦合有限元分析中

利用有限单元一有限差分法模拟了深层软岩加热高温试验。计算结果与试验结果吻合得很好

验证了所提出的本构模型与多相场耦合有限元方法的准确性

可尝试将其用于地热能开发与土体热力学特性的研究和模拟。

Abstract

Based on the concept of "thermal equivalent stress"

a new thermo-elastoplastic constitutive model

which is different from the traditional concept of plasticity that the plastic strain occurs below the normally yield surface

was proposed. In the model

the degree of saturation and skeleton stress were used as independent state variables that could describe the saturated and unsaturated soil behavior in a unified way. In addition

the concepts of sub-loading and superloading were also adopted that the overconsolidation and structure behavior of soil can also be described. The proposed model could simulate the mechanical performance of saturated/unsaturated soil at different temperature condition in consolidation tests and triaxial shear tests quite well.Meanwhile

the model was incorporated into soil-water-air-thermal multi-phase coupling field theory and a heating test in deep soft rock layer was simulated by FE-FD method. The agreement between the results of heating test and simulation confirmed the property of the proposed thermoelastoplastic constitutive model and numerical method. Thus

it could also be used in the analysis of energy piles and surround soils in the geothermal heat exchange system.

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references

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非饱和多孔介质水-热-力耦合数学模型研究 [J]. 严俊,魏迎奇,蔡红,阮建清. 水利学报 . 2014(S2)

Thermo-hydro-mechanical-air coupling finite element method and its application to multi-phase problems [J]. Feng Zhang,Yonglin Xiong,Sheng Zhang,Bin Ye. Journal of Rock Mechanics and Geotechnical Engineering . 2014(02)

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Numerical modeling for the coupled thermo-mechanical processes and spalling phenomena in sp Pillar Stability Experiment （APSE） [J]. T.Koyama,M.Chijimatsu,H.Shimizu,S.Nakama,T.Fujita,A.Kobayashi,Y.Ohnishi. Journal of Rock Mechanics and Geotechnical Engineering . 2013(01)

A simple thermo-elastoplastic model for geomaterials [J] . Sheng Zhang,Wuming Leng,Feng Zhang,Yonglin Xiong. International Journal of Plasticity . 2012

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