义马煤田复杂地质赋存条件下冲击地压诱因研究

doi:10.13722/j.cnki.jrme.2017.0463

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摘要

从义马煤田强冲击倾向性、高地应力水平、F₁₆逆冲断层和上覆巨厚坚硬砾岩顶板的复杂地质赋存环境等多因素多角度入手，研究义马矿区冲击地压的主要诱因、机制和特征。结果显示，义马煤田强冲击倾向性和高地应力环境是其频繁发生冲击地压的主要内因；F₁₆逆冲断层赋存条件下水平构造应力的极不均匀分布，使得高应力环境中断层面及附近区域产生应力集中和能量激增，而且F₁₆逆断层斜切穿过巨厚砾岩顶板，使得两者赋存极不稳定，是冲击地压发生的主要外因。冲击地压发生前，F₁₆断层和巨厚顶板积聚的变形能，在电磁辐射强度和支架阻力的监测结果中均显示为步调一致的增大–减小–再增大–再减小的循环变化过程，而突降的现象可作为冲击失稳的前兆信息。

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关键词 ：采矿工程, 义马煤田, 冲击地压, 逆冲断层, 巨厚砾岩顶板, 电磁辐射

Abstract：

Based on the investigation on high burst proneness，high in-situ stress，F₁₆ thrust fault and conglomerate roof，the contributing factors，characteristics and mechanism of coal bursts in Yima mining area are studied. It is indicated that the high burst proneness and high in-situ stress are the major intrinsic factors to induce coal burst. The distribution of horizontal tectonic stress under the existence of F₁₆ trust fault is extremely inhomogeneous, which makes the stress concentration and energy surge in the high stress environment and the surrounding area. The roof and fault are in the unstable conditions under the influence of conglomerate roof separated by F₁₆ thrust fault. These are the main external factors to induce coal burst in Yima mining area.. Therefore，the electromagnetic radiation and support resistance could be observed as the process of increase，decrease，increase again and decrease again before the occurrence of coal bursts. The sudden decrease of indicator could be identifies as precursory information of coal bursts.

Key words： mining engineering Yima mining area coal bursts thrust faults conglomerate roof with large thickness electromagnetic radiation

引用本文:

王宏伟1，2，姜耀东1，2，邓代新1，张登强1，吕进国3，曾宪涛1，4. 义马煤田复杂地质赋存条件下冲击地压诱因研究[J]. 岩石力学与工程学报, 2017, 36(S2): 4085-4092.
WANG Hongwei1，2，JIANG Yaodong1，2，DENG Daixin1，ZHANG Dengqiang1，LU Jinguo3，. Investigation on the inducing factors of coal bursts under complicated geological environment in Yima mining area. , 2017, 36(S2): 4085-4092.

链接本文:

https://rockmech.whrsm.ac.cn/CN/10.13722/j.cnki.jrme.2017.0463 或 https://rockmech.whrsm.ac.cn/CN/Y2017/V36/IS2/4085

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