冲击矿压预测的电磁辐射技术及应用
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摘要
试验研究表明,煤岩在冲击破裂过程中,裂缝的形成和颗粒的摩擦会产生电磁辐射;煤岩体所受的应力越高、变形破裂越强烈,电磁辐射信号越强;现场观测的微震和冲击矿压发生前,电磁辐射也有较大幅度的增加.为此,提出了非接触式电磁辐射预测冲击矿压危险的临界指标和偏差技术.
Experimental study show that the EME(electromagnetic emission) is caused by the crack expands and friction of granule during rock and coal burst failure. The higher the stress in the coal is, the stronger the deformation and the failure are, and the stronger the signal of the EME is. The EME is increased by a relatively large margin before the slight shock and rock burst break out at spot. Therefore, some methods to monitor and forecast the danger of rock burst are propsed, such as critical point and deviation values which by non-contract method.
Experimental study show that the EME(electromagnetic emission) is caused by the crack expands and friction of granule during rock and coal burst failure. The higher the stress in the coal is, the stronger the deformation and the failure are, and the stronger the signal of the EME is. The EME is increased by a relatively large margin before the slight shock and rock burst break out at spot. Therefore, some methods to monitor and forecast the danger of rock burst are propsed, such as critical point and deviation values which by non-contract method.
引文
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[2] 窦林名,何学秋.冲击矿压防治理论与技术[M].徐州:中国矿业大学出版社,2001.
[3] 何学秋,刘明举.含瓦斯煤岩破坏电磁动力学[M].徐州:中国矿业大学出版社,1995.
[4] 窦林名,何学秋.采矿地球物理学[M].北京:中国科学文化出版社,2002.
[5] DouLinming,XuFangjun,ZhangXiufeng.EMErockburstmonitoringinCoalMineHuafeng[A].InternationalScientific-TechnicalSymposiumRockburst2002ResearchandPreventionSystemsProceedings[C].Poland:GlownyInstytuteGorniczyPress,2002.261~267.
[6] 何学秋.含瓦斯煤岩流变动力学[M].徐州:中国矿业大学出版社,1995.
[7] 王恩元,何学秋.煤岩变形破坏电磁辐射的实验研究[J].地球物理学报,2000,43(1):131~137.
[8] 钱书清,任克新,吕 智.伴随岩石破裂的VLF、MF、HF和VHF电磁辐射特性的实验研究[J].地震学报,1996,18(3):346~351.
[9] 郭自强,周大庄,施行觉,等.岩石破裂中的电子发射[J].地球物理学报,1988,31(5):566~571.
[10] 郭自强,郭子祺,钱书清,等.岩石破裂中的声电效应[J].地球物理学报,1999,42(1):74~83.
[11] 窦林名.煤岩突变的声电效应规律及其应用研究[D].徐州:中国矿业大学,2001.
[12] 窦林名,曹其伟,何学秋,等.冲击矿压危险的电磁辐射监测技术[J].矿山压力与顶板管理,2002,19(4):89~91.
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