煤矿深孔松动爆破地震波传播特性研究

Xia Hong-bing, X. Ying, Wang Hai-bo
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引用次数: 1

摘要

根据工作面断层分布,制定了深孔松动爆破方案,并进行了振动监测。得到深孔松动爆破地震波衰减规律,采用HHT方法对振动信号进行分解,研究信号的频谱特征和能量分布。研究结果表明:深孔松动爆破地震波传播特性符合《爆破安全规程》中硬岩传播规律,在振动速度的三个方向分量中测点与爆炸震源之间的连接线分量最大,这是由于不同类型地震波在传播过程中能量损失的差异造成的,爆破振动持续时间约为150ms;主要能量集中在小于100 Hz的低频区域,能量可以按频率分布划分为几个“子带”。根据衰减规律反演出现场深孔松动爆破的最大单次装药,并提出了减少施工中爆破地震危害的措施,为施工提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study on Seismic Wave Propagation Characteristic of Deep-Hole Loose Blasting in Coal Mine
According to the distribution of faults in coal face, deep-hole loose blasting scheme is formulated and vibration monitoring is conducted. Obtained seismic wave attenuation rule of deep-hole loose blasting, HHT method is adopted for vibration signal decomposition to research the characteristic of spectrum and the energy distribution of the signal. Research results show that seismic wave propagation characteristic of deep-hole loose blasting accords with hard rock spread rule in Safety Regulation for Blasting, the linear component of the ligature between survey point and explosion source is the largest in the three direction components of vibration velocity, which is resulted from the difference of energy loss between different kinds of seismic wave in propagation process, the duration of blasting vibration is about 150 ms, main energy is concentrated in the low-frequency area of less than 100 Hz, and energy can be divided into several "sub-bands" with frequency distribution. According to attenuation law, the biggest single shot charge of deep-hole loose blasting in the site can be calculated inversely, and measures for reducing blasting seismic hazard in construction are proposed, which would provide a reference for the construction.
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