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Mechanical behavior and damage constitutive model of sandstone under hydro-mechanical (H-M) coupling

联轴节(管道) 消散 软化 岩土工程 压力(语言学) 孔隙水压力 断裂(地质) 本构方程 不稳定性 材料科学 地质学 机械 复合材料 结构工程 物理 有限元法 热力学 工程类 哲学 语言学
作者
Tao Tan,Chunyang Zhang,Yanlin Zhao,Xiaoshuang Li
出处
期刊:International journal of mining science and technology [Elsevier BV]
卷期号:34 (6): 837-853 被引量:29
标识
DOI:10.1016/j.ijmst.2024.07.002
摘要

Underground engineering often passes through water-rich fractured rock masses, which are prone to fracture and instability under the long-term coupling of in-situ stress field and pore water (P-W) pressure, ultimately threatening the stability of underground structures. In order to explore the mechanical properties of rocks under H-M coupling, the corresponding damage constitutive (D-C) model has become the focus of attention. Considering the inadequacy of the current research on rock strength parameters, energy evolution characteristics and D-C model under H-M coupling, the mechanical properties of typical sandstone samples are discussed based on laboratory tests. The results show that the variation of characteristic stresses of sandstone under H-M coupling conforms to the normalized attenuation equation and Mohr-Coulomb (M−C) criterion. The P-W pressure mechanism of sandstone exhibits a dynamic change from softening effect to H-M fracturing effect. The closure stress is mainly provided by cohesive strength, while the initiation stress, damage stress, and peak stress are jointly dominated by cohesive strength and friction strength. In addition, residual stress is attributed to the friction strength formed by the bite of the fracture surface. Subsequently, the energy evolution characteristics of sandstone under H-M coupling were studied, and it was found that P-W pressure weakened the energy storage capacity and energy dissipation capacity of sandstone, and H-M fracturing was an important factor in reducing its energy storage efficiency. Finally, combined with energy dissipation theory and statistical damage theory, two types of D-C models considering P-W pressure are proposed accordingly, and the model parameters can be determined by four methods. The application results indicate that the proposed and modified D-C models have high reliability, and can characterize the mechanical behavior of sandstone under H-M coupling, overcome the inconvenience of existing D-C models due to excessive mechanical parameters, and can be applied to the full-range stress–strain process. The results are conducive to revealing the deformation and damage mechanisms of rocks under H-M coupling, and can provide theoretical guidance for related engineering problems.

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