岩土力学 ›› 2026, Vol. 47 ›› Issue (5): 1553-1566.doi: 10.16285/j.rsm.2025.0187CSTR: 32223.14.j.rsm.2025.0187

• 基础理论与实验研究 • 上一篇    下一篇

实时高温循环加卸载下花岗岩双轴力学特性

刘佳奇,张碧川,冯增朝,李学成,郭纪哲   

  1. 太原理工大学 原位改性采矿教育部重点实验室,山西 太原 030024
  • 收稿日期:2025-02-02 接受日期:2025-10-21 出版日期:2026-05-11 发布日期:2026-05-08
  • 通讯作者: 冯增朝,男,1971年生,博士,教授,主要从事岩石力学和煤层气开采等研究。E-mail: zc-feng@163.com
  • 作者简介:刘佳奇,男,2000年生,硕士研究生,主要从事岩石力学等研究。E-mail: ljq1046942492@outlook.com
  • 基金资助:
    国家自然科学基金(No. 52474106);山西省基础研究计划青年项目(No. 202403021212322)。

Biaxial mechanical properties of granite under real-time high-temperature cyclic loading and unloading

LIU Jia-qi, ZHANG Bi-chuan, FENG Zeng-chao, LI Xue-cheng, GUO Ji-zhe   

  1. Key Laboratory of In-situ Property Improving under Mining of Ministry of Education, Taiyuan University of Technology, Taiyuan, Shanxi 030024, China
  • Received:2025-02-02 Accepted:2025-10-21 Online:2026-05-11 Published:2026-05-08
  • Supported by:
    This work was supported by the National Natural Science Foundation of China (52474106) and Youth Project of Shanxi Provincial Basic Research Program (202403021212322).

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摘要: 针对深地结构岩石受到扰动应力失稳破坏,导致围岩稳定性降低的问题,开展250 ℃实时高温双轴循环加卸载的花岗岩破坏试验,探究在等幅增加循环加卸载作用下花岗岩的力学损伤破坏、能量演化以及声发射信号特征。结果表明:(1)随着循环加卸载扰动载荷应力水平的提高,花岗岩在不同侧向应力下的弹性模量与不可逆应变均呈上升趋势,在侧向应力为20、40、60、80 MPa时,弹性模量依次增加了7.73、9.07、10.23、9.87 GPa,不可逆应变依次增加了1.2×10−3、0.2×10−3、0.4×10−3以及0.5×10−3。岩样的能量呈现非线性增长趋势,耗散能占比降低,在侧向应力为20、40、60、80 MPa时,耗散能占比依次降低了16.7%、14.8%、13.9%、11.9%,输入的能量多以弹性能的形式存在。(2)花岗岩的峰值强度会随着侧向应力的增大而增大,在侧向应力为20、40、60、80 MPa时,峰值强度依次为230.24、263.81、272.42、297.21 MPa。岩石的弹性模量会相应增大,从14.9 GPa增加到15.8 GPa。不可逆应变会相应减小,从3.3×10−3左右降低到1.4×10−3左右。能量方面,同一加载区间的耗散能占比降低了2.0%~7.5%。(3)声发射信号方面,随着侧向应力的增大,声发射振铃计数大幅减小,出现了29 383、28 467、17 539、9 436次的峰值声发射振铃计数,并且声发射振铃计数出现的频次减少。在同一侧向应力条件下,随着循环加卸载进行,声发射振铃计数会在破坏时出现突增,值会先增大后减小,在破坏时达到最低值,最低值通常处于4~7之间。声发射累计能量越来越大,在临近破坏时声发射累计能量增长迅速。研究对深地结构岩石的力学特性与损伤行为有一定的参考意义。

关键词: 双轴应力状态, 循环加卸载, 实时高温, 损伤特性, 声发射特征

Abstract: To investigate the instability and failure of deep geological structural rocks under disturbed stress, which reduces the stability of surrounding rocks, we conducted a granite failure experiment involving real-time high-temperature biaxial cyclic loading and unloading at 250 ℃. This study examines the mechanical damage, energy evolution, and acoustic emission (AE) signal characteristics of granite subjected to cyclic loading and unloading with equal amplitude. The results are as follows: (1) As the stress level of cyclic loading and unloading disturbances increases, both the elastic modulus and irreversible strain of granite show an upward trend under varying lateral stresses. When the lateral stresses are 20, 40, 60 MPa, and 80 MPa, the elastic modulus increases by 7.73, 9.07, 10.23 and 9.87 GPa, respectively, while the irreversible strain increases by 1.2×10−3, 0.2×10−3, 0.4×10−3, and 0.5×10−3, respectively. The energy of the rock specimens exhibits a nonlinear growth trend, accompanied by a decrease in the proportion of dissipated energy. Specifically, at lateral stresses of 20, 40, 60 and 80 MPa, the proportion of dissipated energy decreases by 16.7%, 14.8%, 13.9%, and 11.9%, respectively, indicating that most of the input energy is stored as elastic energy. (2) The peak strength of granite increases with increasing lateral stress. At lateral stresses of 20, 40, 60, and 80 MPa, the corresponding peak strengths are 230.24, 263.81, 272.42, and 297.21 MPa, respectively. The elastic modulus of the rock also increases from 14.9 GPa to 15.8 GPa accordingly. Meanwhile, the irreversible strain decreases from approximately 3.3×10−3 to about 1.4×10−3. Regarding energy, the proportion of dissipated energy within the same loading interval decreases by 2.0% to 7.5%. (3) As confining pressure increases, the AE ringing counts significantly decrease, with peak counts of 29 383, 28 467, 17 539, and 9 436, respectively, and the frequency of AE ringing counts also declines. Under the same confining pressure, as cyclic loading and unloading progress, there is a sharp increase in AE ringing counts at failure. The b-value initially increases and then decreases, reaching its lowest value at failure, typically ranging between 4 and 7. The cumulative AE energy increases, with rapid growth occurring near failure. This research offers valuable insights into the mechanical properties and damage behaviors of deep geological structural rocks.

Key words: biaxial stress state, cyclic loading and unloading, real-time high temperature, damage characteristics, acoustic emission characteristics

中图分类号: TU 452
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