长江科学院院报 ›› 2019, Vol. 36 ›› Issue (9): 131-135,141.DOI: 10.11988/ckyyb.20171365

• 岩土工程 • 上一篇    下一篇

三场耦合作用下黏土岩损伤变形特性及本构模型

赵守勇   

  1. 四川农业大学 土木工程学院,成都 611830
  • 收稿日期:2017-11-27 修回日期:2018-04-03 出版日期:2019-09-01 发布日期:2019-09-12
  • 作者简介:赵守勇(1968-),男,四川南充人,讲师,主要从事土木工程、岩土工程及相关领域的研究。E-mail:quhn85545@126.com

Damage Deformation Characteristics and Constitutive Model of Clay Rock under Thermal-Hydro-Mechanical Coupling

ZHAO Shou-yong   

  1. College of Civil Engineering, Sichuan Agricultural University, Chengdu 611830, China
  • Received:2017-11-27 Revised:2018-04-03 Published:2019-09-01 Online:2019-09-12

摘要: 深部地下围岩常常处于温度场、渗流场、应力场等多场耦合作用,研究黏土岩在温度-渗流-应力场耦合作用下的变形损伤演化过程尤为重要。从试验和理论模型2个方面对黏土岩开展了温度-渗流-应力三场耦合特性研究,结果表明:高温会造成黏土岩内部结构发生质的劣化,黏土岩的温度越高,其峰值强度越小,而应变变形量越大;渗透系数随变形总体呈先减后增的趋势,并在峰后阶段略有降低,分别与体变压缩硬化、剪胀损伤、软化剪胀3阶段相对应,体积变形的转折拐点即为渗透率加速增大的临界点;黏土岩的渗透率随温度升高呈先减小后增大的趋势,当温度<50 ℃时,渗透率随温度升高而减小,当温度>50 ℃后,随温度升高而增大;温度越高,黏土岩的“实损伤”发展越快。基于试验结果,建立了温度-渗流-应力三场耦合作用下的损伤本构模型,该模型能较好地模拟黏土岩三场耦合作用下的损伤变形演化过程。

关键词: 黏土岩, 温度-渗流-应力耦合, 体积应变, 渗透系数, 损伤特征, 本构模型

Abstract: Deep underground rock is often subjected to the coupled actions of temperature field, seepage field and stress field. In this paper, the thermal-hydro-mechanical coupling characteristics of clay rock are studied via experimental and theoretical approaches. First of all, triaxial compression tests were conducted at different temperatures to reveal the relationship among temperature, deformation, and permeability as follows: high temperature deteriorated the internal structure of clay rock in a qualitative sense by degrading peak strength and raising strain deformation; permeability coefficient firstly declined and then increased along with deformation, and decreased slightly in post-peak stage, respectively corresponding to three stages (volumetric strain compression hardening stage, dilatancy hardening stage, and dilatancy softening stage), with the turning point of volumetric deformation implying the acceleration of permeability; under 50 ℃, the permeability of clay rock reduced with the climbing of temperature, while increased when above 50 ℃, with the real damage developing rapidly. On the basis of such experimental results, a constitutive damage model of clay rock under thermal-hydro-mechanical coupling effect was established, and was verified by experimental results.

Key words: clay rock, temperature-seepage-stress coupling, volumetric strain, permeability coefficient, damage characteristics, constitutive model

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