CHINESE JOURNAL OF ENERGETIC MATERIALS
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Heat Resistance and Explosion Transfer Performance in the Irreversible Detonating Network Applied in High Temperature Mine Blasting
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(Department of Modern Mechanics, University of Science and Technology of China, Hefei 230027, China)

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    Abstract:

    In order to solve the problem of the sudden spontaneous firing and premature explosion of high temperature in the blast hole charge, a new type of irreversible detonating network applied in the high temperature coal mine was studied by adapting explosion test method, combustion of thermal analysis and system reliability rule.The experiment tests on the heat resistance property of metal detonation cord in high temperature and detonation propagation reliability and resistance effect of the irreversible initiating component were carried out, and the blasting network security and reliability were evaluated and calculated as well.Results show that the metal detonation cord in the hole can effectively improve the safe time of the high temperature resistant performance, and reduce the probability of sudden spontaneous firing.The irreversible detonating structure, similar to the role of the diode in the circuit, plays a safety control function in the blasting network, and avoids the sudden spontaneous firing of the whole detonating network caused by a certain blasthole, ensuring the safety of the main network.The irreversible detonating network reliability reaches 99.99% with the hole number of 64, better than the traditional blasting network.

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王飞,马宏昊,沈兆武.一种应用于高温火区爆破中的不可逆起爆网路的耐温与传爆性能[J].含能材料,2016,24(1):106-110.
WANG Fei, MA Hong-hao, SHEN Zhao-wu. Heat Resistance and Explosion Transfer Performance in the Irreversible Detonating Network Applied in High Temperature Mine Blasting[J]. Chinese Journal of Energetic Materials,2016,24(1):106-110.

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History
  • Received:September 05,2014
  • Revised:February 12,2015
  • Adopted:March 09,2015
  • Online: January 06,2016
  • Published: January 13,2016