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不同介质作用下爆生裂隙的形态特征试验研究

Experimental study on morphological characteristics of blasting-induced cracks under action of different media

  • 摘要: 为研究不同介质对爆生裂隙形态特征的影响规律,分别开展了空气、水、空气-悬砂颗粒和水-悬砂颗粒作用下的有机玻璃爆破试验,分析了爆生裂隙的长度、宽度和空间偏转角度,得到了爆生裂隙的形态特征和悬砂颗粒在裂隙中的分布规律。试验结果表明:采用水作为介质时,主裂隙的长度和宽度明显大于采用空气作为介质时,分别增大了16.9%和33.3%,可见,含水条件下爆破能量的利用率较高;相比于单纯的空气和水作为介质时,悬砂颗粒的添加使主裂隙长度分别增大了45.2%和45.0%,主裂隙宽度分别增大了133.3%和100.0%。在爆生气体的膨胀作用下,悬砂颗粒被气流带入到爆生裂隙中,很好地支撑了裂隙,使裂隙宽度增大。而且,悬砂颗粒的存在弱化了裂隙扩展的偏转作用,使裂隙偏转角度分布范围分别降低了81.3%和30.0%。试验结论对爆破增透强化瓦斯抽采技术具有一定的理论指导意义。

     

    Abstract: In order to study the influence of different medium on the morphological characteristics of blasting-induced cracks, the blasting tests of plexiglass under the action of air, water, air-suspendedparticles and water-suspended particles were carried out respectively. The length, width and spatial deflection angle of blasting-induced cracks were analyzed. The morphological characteristics of blasting-induced cracks and the distribution of suspended particles in the cracks under the action of different medium were obtained. The experimental results show that when water is used as the medium, the length and width of the main crack are significantly larger than that when air is used as medium, which is increased by 16.9% and 33.3% respectively. When pure air and water are used as the medium, the addition of suspended particles increases the length of the main crack by 45.2% and 45.0% respectively and the main crack width increases by 133.3%and 100% respectively. Under the expansion of the explosive gas, the suspended sand particles are brought into the blasting-induced cracks by the airflow, supporting the crack well and increasing the width of the crack. Moreover, the existence of suspended sand particles weakens the deflection of crack propagation, reducing the distribution range of crack deflection angle by 81.3% and 30% respectively.The experiment conclusion has a certain theoretical guiding significance for enhancing gas extraction technology by blasting.

     

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