Evolution and Correlation of Acoustic Emission and Resistance Parameters During Coal Fracture Propagation

IF 4.8 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Song Mingyang, Li Quangui, Hu Qianting, Zhang Yuebing, Xu Yangcheng, Hu Liangping, Zheng Xuewen, Zhao Zhengduo, Liu Suyu, Wang Mingjie
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Abstract

Combining multiple monitoring methods can improve the accuracy of coal damage and fracture behavior detection. In this study, nine coal samples, each with similar P-wave velocities and masses, were subjected to joint monitoring experiments involving multiple physical parameters. The acoustic emission (AE) and resistance information of coal samples were assessed from the initiation of loading to eventual failure under diverse uniaxial loading rates. The characteristic electrical and acoustic parameters were analyzed in combination with coal damage conditions. The results show that, throughout the loading process, resistivity declined gradually with escalation of coal strain, followed by an abrupt nonlinear increase. Deformation before failure reduced coal resistivity by up to 11.39%. As the coal crack area expanded, the resistivity post-failure reached threefold the initial value. The AE ring count peak value corresponded to crack growth, and the AE energy had a power law distribution feature. The frequency band effect of the AE peak frequency was significant, and shear cracks accounted for more than 80%. Resistance and AE ring count exhibited simultaneous responses to coal failure, and the characteristic parameters of acoustic-electrical behavior demonstrated consistent patterns for cracks induced by various loading rates. The time sequence characteristics of the RSD index, which quantified the degree of resistivity fluctuation, corresponded almost exactly to the development process of coal damage described by AE, and the peak value of this index corresponded to the AE event in the time scale. The overall fluctuation degrees in resistivity of coal samples with varying damage levels showed positive correlation with the AE ring count. An acoustic-electric method for characterizing coal damage is summarized, and corresponding resistivity characteristic parameters are proposed. These parameters have a significant response law to coal damage, which is helpful in supplementing a new index for early warning of geological disasters.

Abstract Image

煤炭断裂扩展过程中声波发射和电阻参数的演变及相关性
结合多种监测方法可以提高煤炭损伤和断裂行为检测的准确性。在这项研究中,九个煤样(每个煤样都具有相似的 P 波速度和质量)接受了涉及多个物理参数的联合监测实验。在不同的单轴加载速率下,评估了煤样从加载开始到最终破坏的声发射(AE)和电阻信息。结合煤炭的损坏情况分析了电学和声学特征参数。结果表明,在整个加载过程中,电阻率随着煤炭应变的增加而逐渐下降,随后出现突然的非线性增加。破坏前的变形使煤的电阻率降低了 11.39%。随着煤裂缝面积的扩大,失效后的电阻率达到了初始值的三倍。AE 环数峰值与裂纹增长相对应,AE 能量具有幂律分布特征。AE 峰值频率的频带效应显著,剪切裂纹占 80% 以上。电阻和 AE 环数对煤炭失效的响应是同步的,声电行为的特征参数对不同加载速率诱发的裂纹表现出一致的模式。量化电阻率波动程度的 RSD 指数的时序特征与 AE 描述的煤破坏发展过程几乎完全一致,该指数的峰值在时间尺度上与 AE 事件相对应。不同损伤程度煤样的电阻率总体波动程度与声发射环数呈正相关。总结了一种表征煤炭损伤的声电方法,并提出了相应的电阻率特征参数。这些参数对煤炭损伤具有显著的响应规律,有助于补充地质灾害预警的新指标。
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来源期刊
Natural Resources Research
Natural Resources Research Environmental Science-General Environmental Science
CiteScore
11.90
自引率
11.10%
发文量
151
期刊介绍: This journal publishes quantitative studies of natural (mainly but not limited to mineral) resources exploration, evaluation and exploitation, including environmental and risk-related aspects. Typical articles use geoscientific data or analyses to assess, test, or compare resource-related aspects. NRR covers a wide variety of resources including minerals, coal, hydrocarbon, geothermal, water, and vegetation. Case studies are welcome.
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