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黄金科学技术 ›› 2021, Vol. 29 ›› Issue (3): 392-400.doi: 10.11872/j.issn.1005-2518.2021.03.220

• 采选技术与矿山管理 • 上一篇    下一篇

不同张开度裂隙类岩体循环加卸载下滞回环特征与损伤变形分析

杨少峰(),蒲成志(),曾佳君,李益龙   

  1. 南华大学资源环境与安全工程学院,湖南 衡阳 421001
  • 收稿日期:2020-12-18 修回日期:2021-03-17 出版日期:2021-06-30 发布日期:2021-07-14
  • 通讯作者: 蒲成志 E-mail:2428867108@qq.com;puchengzhi@foxmail.com
  • 作者简介:杨少峰(1993-),男,山西运城人,硕士研究生,从事岩石断裂力学方面的试验研究工作。2428867108@qq.com
  • 基金资助:
    国家自然科学基金项目“水—力耦合作用下卸荷诱导的裂隙体破断实验与灾变机理研究”(51704168);湖南省自然科学基金青年项目“渗流场长时稳定作用的裂隙体破断实验与机理研究”(2019JJ50528)

Hysteresis Characteristics and Damage Deformation Analysis of Fractured Rock Mass with Different Crack Opening Under Cyclic Loading and Unloading

Shaofeng YANG(),Chengzhi PU(),Jiajun ZENG,Yilong LI   

  1. School of Resources Environment and Safety Engineering,University of South China,Hengyang 421001,Hunan,China
  • Received:2020-12-18 Revised:2021-03-17 Online:2021-06-30 Published:2021-07-14
  • Contact: Chengzhi PU E-mail:2428867108@qq.com;puchengzhi@foxmail.com

摘要:

为探究张开度和不同应力等级循环加卸载复合影响下裂隙岩体的损伤特性和裂纹演化规律,利用水泥砂浆制备不同张开度单裂隙类岩石材料,基于RMT-150B岩石力学试验机对类岩石材料开展了3种等级的应力循环加载试验,分析了裂隙类岩石材料的应力—应变曲线特征、滞回环面积变化规律、动弹性模量变化规律及损伤特性。试验结果表明:类岩石材料的强度随应力循环等级的增大而出现弱化现象,同时循环过程中加卸载曲线形成的滞回环由刚开始的“密集型”转为“稀疏型”;类岩石材料滞回环的面积随着循环次数的增大呈递减趋势,而滞回环面积随张开度的增大呈递增趋势;当循环应力和循环次数相同时,类岩石材料的动弹性模量随着张开度的增大呈递减趋势;随着应力循环等级的增大,类岩石材料的损伤变量随着循环次数的增加呈现为递减—缓慢增长—急剧增长趋势,且不同应力等级下裂纹的演化各不相同。

关键词: 裂隙张开度, 分级应力循环加卸载, 滞回环, 动弹性模量, 绝对损伤参数, 裂纹演化

Abstract:

In order to explore the damage characteristics and crack evolution law of fractured rock mass under the combined influence of opening and cyclic loading and unloading of different stress levels,four kinds of single fractured rock materials with different opening (0.1,0.2,0.4,0.8 mm) were prepared by cement mortar,and three kinds of cyclic stress loading tests were carried out on rock-like materials based on RMT-150B rock mechanics testing machine.The characteristics of stress-strain curves,hysteretic loop area,dynamic elastic modulus and damage of fractured rock materials were analyzed.The test results show that the three kinds of stress cyclic loading roughly correspond to the three stages of pore compaction,elastic deformation and stable propagation of microcracks,and the peak strength of rock-like materials decreases with the increase of cyclic stress grade,the phenomenon of strength weakening occurs,and the hysteresis loop changes from “dense” to “sparse” at the beginning.Under the condition of the same stress level,with the increase of the number of cycles,the hysteresis loop area decreases sharply at first and then tends to be stable.In addition,there is an obvious difference in the decrease of the hysteresis loop area with different crack openings,the smaller the crack opening is,the smaller decrease of the hysteresis loop area is.Under the same number of cycles,the hysteresis loop area increases with the increase of crack opening and cyclic stress grade,and in the same cyclic stress grade and crack opening,the dynamic elastic modulus increases sharply at first and then tends to a stable value with the increase of the number of cycles.When the cyclic stress level and cyclic times are the same,the dynamic elastic modulus of rock-like materials decreases with the increase of crack opening.Under the same crack opening and cycle times,the dynamic elastic modulus increases at first and then decreases with the increase of cyclic stress grade,and with the increase of stress cycle grade and cycle times,the damage variable of rock-like materials shows the trend of decreasing first,then slow growth and then sharp increase,corresponding to the change law of the transition of hysteretic loop from “dense” to “sparse”.And the crack evolution of rock-like materials is different in different cyclic stress levels.

Key words: crack opening, graded cyclic loading and unloading, hysteresis loop, dynamic modulus of elasticity, absolute damage parameter, crack evolution

中图分类号: 

  • TU452

图 1

裂隙岩体模型及实物"

图 2

改装后的RMT-150B伺服控制试验机"

图 3

循环加卸载方式"

表 1

试件的力学参数"

参数名称数值参数名称数值
密度ρ/ (kg·m-32 188黏聚力c/MPa9.51
单轴抗压强度σc/MPa55.52泊松比v0.22
单轴抗拉强度σt/MPa4.37内摩擦角φ/(°)34.65
弹性模量E/GPa8.62

图4

不同张开度裂隙倾角试件和完整试件的应力—应变关系曲线注:b为裂隙张开度,β为裂隙倾角"

图5

加卸载滞回环"

图6

滞回环面积与循环次数的关系曲线注:b为裂隙张开度"

图7

动弹性模量与循环次数的关系曲线注:b为裂隙张开度"

图8

绝对损伤参数与循环次数的关系曲线注:b为裂隙张开度"

图9

低应力循环等级下滞回环区间裂隙岩体裂纹演化图"

图10

中应力循环等级下滞回环区间裂隙岩体裂纹演化图"

图11

高应力循环等级下滞回环区间裂隙岩体裂纹演化图"

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