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Effect of Laws Reduced Graphene Oxide on the Impact Sensitivity and Electrostatic Sensitivity of B/KNO3 Ignition Powder
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State Key Laboratory of Explosion Science and Technology,Beijing Institute of Technology,State Key Laboratory of Explosion Science and Technology,Beijing Institute of Technology,State Key Laboratory of Explosion Science and Technology,Beijing Institute of Technology,State Key Laboratory of Explosion Science and Technology,Beijing Institute of Technology

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    Abstract:

    Graphene oxide (GO)was prepared by Hummers method using flake graphite as raw material, and reduced grapheneoxide (rGO) was obtained by further thermal reduction.The apparent morphology of the material before and after reduction was observed by scanning electron microscope.The change of oxygen-containing functional groups on the surface of the two graphene derivative sheets was analyzed and compared by infrared spectroscopy.The thermal diffusivity and resistivity of B/KNO3 ignition powder with different ratios of rGO were measured.According to the national military standard GJB5891-2006, the characteristic drop height, the critical ignition voltage, and the 50% firing energy of the boron-based ignition powder with different ratios of rGO were tested.Results show that after adding 1%-5% rGO, the thermal conductivity of ignition powder increases from 0.573 W·(m·K)-1 to 0.620 W·(m·K)-1, the resistivity of ignition powder decreases from the insulator to 1.11×10 5 Ω·cm, the characteristic drop height of ignition powder increases from 42.3 cm to 59.0 cm, and the critical ignition voltage increases from 5 kV to 25 kV, revealing that a small amount of rGO can significantly improve the impact sensitivity and electrostatic sensitivity of the ignition powder, and rGO has potential application value in the safety regulation of compound energetic materials.

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王前,刘洁,任慧,等.还原氧化石墨烯对B/KNO3点火药撞击及静电感度的影响[J].含能材料,2018,26(10):875-880.
WANG Qian, LIU Jie, REN Hui, et al. Effect of Laws Reduced Graphene Oxide on the Impact Sensitivity and Electrostatic Sensitivity of B/KNO3 Ignition Powder[J]. Chinese Journal of Energetic Materials,2018,26(10):875-880.

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History
  • Received:May 08,2018
  • Revised:September 13,2018
  • Adopted:July 19,2018
  • Online: September 06,2018
  • Published: October 25,2018