采动应力路径下花岗岩变形破坏特性及能量演化机制

doi:10.12068/j.issn.1005-3026.2023.08.015

摘要/Abstract

摘要： 考虑千米深花岗岩在采动过程中的应力路径，开展升轴压定围压、升轴压卸围压和定轴压卸围压3种应力路径下的花岗岩三轴加卸荷实验，旨在获得岩石在采动卸荷作用下的变形破坏特征及能量演化规律.研究结果表明:高围压等级下岩石峰值破坏前内部储存的能量更多，发生破坏时内部释放的变形能对岩石结构的冲击力度更强，岩样脆性破坏更显著；卸荷作用使围压对岩样的径向束缚变弱，导致岩样径向扩容增强并在较低应力水平作用下发生破坏，岩石变形模量和广义泊松比更快达到极值点；扩容点为岩样弹性能占比由增大转为减小的转折点；相较于升轴压定围压试验，卸荷条件下弹性能转化为耗散能的比例更高，岩石破坏程度更剧烈.

关键词: 花岗岩；卸荷；力学实验；变形破坏；能量演化

Abstract: Considering the stress paths of kilometer-deep granite during mining， the triaxial loading and unloading experiments are performed on granite under three stress paths: ascending axial pressure and fixed confining pressure， ascending axial pressure and unloading confining pressure， and fixed axial pressure and unloading confining pressure. The aim is to obtain the deformation and failure characteristics and energy evolution law of rock under mining and unloading conditions. The research results show that under the high confining pressure levels， rock stores more energy before reaching peak failure， and the deformation energy released during failure has a more significant impact on the rock structure， leading to brittle failure of the rock sample. The unloading effect weakens the radial restraint of the confining pressure on the rock sample， causing an increase in radial expansion， and failure occurs at a lower stress level. Furthermore， the rock deformation modulus and generalized Poisson’s ratio reach the extreme point faster， determined by the expansion point， the turning point at which the proportion of elastic energy of the rock sample changes from increasing to decreasing. Compared with the ascending axial pressure and fixed confining pressure test， the ratio of elastic energy to dissipated energy is higher under the unloading conditions， resulting in more severe in rock damage.

Key words: granite; unloading; mechanics experiment; deformation damage; energy evolution

中图分类号:

TU45

由爽，李虎振，侯晓旭，耿乾逞. 采动应力路径下花岗岩变形破坏特性及能量演化机制[J]. 东北大学学报（自然科学版）, 2023, 44(8): 1177-1187.

YOU Shuang， LI Hu-zhen， HOU Xiao-xu， GENG Qian-cheng. Deformation Damage Characteristics and Energy Evolution Mechanism of Granite Under Mining Stress Path[J]. Journal of Northeastern University(Natural Science), 2023, 44(8): 1177-1187.

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