矿山岩体渗流突变的前兆信息与灾害机理研究

IF 5.8 4区工程技术 Q1 MECHANICS

Applied Rheology Pub Date : 2024-02-28 DOI:10.1515/arh-2023-0116

Yijun Gao, Zongjie Zhu, Zhiming Liu, Gang Huang

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引用次数: 0

摘要

采空区应力场和渗流场的变化是造成底板岩体变形和失稳的重要原因之一。随着开采强度和深度的增加，在开采卸荷和承压水的双重作用下，底板涌水灾害已成为制约煤炭高效安全开采的主要问题之一。基于华北煤田奥陶系石灰岩底板承压水涌水的研究背景，数值分析表明，开采卸载使应力集中，变形增大，增大了塑性区和透水范围。基于实验室声发射和力学测试，发现声发射振铃数峰值可作为石灰岩渗流突变的前兆信息之一。该研究揭示了卸荷路径下岩体变形和渗透率的演化规律，研究获得了路基岩体卸荷渗流和涌水灾害机理。

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Study on precursor information and disaster mechanism of sudden change of seepage in mining rock mass

Changes in the stress field and seepage field of mining unloading are one of the important causes of deformation and destabilization of the rock body of the bottom slab. With the increase of mining intensity and depth, the disaster of water influx on the bottom plate under the dual action of mining unloading and pressurized water has become one of the main problems restricting the efficient and safe mining of coal. Based on the research background of confined water inrush from Ordovician limestone floor in North China Coalfield, the numerical analysis revealed that mining unloading concentrates stresses, increases deformation, and increases the plastic zone and permeability range. Based on laboratory acoustic emission and mechanical tests, it is found that the peak of acoustic emission ringing number can be one of the precursor information of limestone seepage mutation. This study reveals the evolution law of rock body deformation and permeability under the unloading path, and the research obtains the unloading seepage and water gushing disaster mechanism of the subgrade rock body.

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来源期刊

Applied Rheology 物理-力学

CiteScore

3.00

自引率

5.60%

发文量

审稿时长

>12 weeks

期刊介绍： Applied Rheology is a peer-reviewed, open access, electronic journal devoted to the publication in the field of applied rheology. The journal provides the readers with free, instant, and permanent access to all content worldwide; and the authors with extensive promotion of published articles, long-time preservation, language-correction services, no space constraints and immediate publication.