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Reaction Characteristics of the Novel Alkali Metal Periodate Nano-thermite
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School of Chemistry and Chemical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China

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    Abstract:

    The lack of plenty of gas products during the combustion reaction of thermite is an important constraint on the development of high energy. To make up for the lack of gas production and improve the reactivity of nano-thermite, Al@KIO4 and Al@NaIO4 nano-thermites with core-shell structure were prepared by spray drying method. Scanning electron microscope, X-ray diffractometer, thermal analyzer, constant volume combustion chamber, hygroscopicity test and initiation power test were used to characterize the morphologies and structures, and also thermal properties, combustion performances, moisture-resistance performances and detonation performances. Results show that Al@KIO4 and Al@NaIO4 nano-thermites are seperatelly in high purities and with regular morphologies; the heat release are 1262.12 J∙g-1 and 1414.7 J∙g-1, respectively; the starting temperatures of the decomposition reactions are lower than the raw materials and accompanied with a large number of oxidizing gas products. The mass balances were reached on the 6th and 10th day, and the mass gains were about 0.64% and 0.65% in high humidity for the Al@KIO4 and Al@NaIO4 nano-thermites. Initiation power test showed that 96 mg samples charged into No.8 industrial detonator as primary explosive could completely detonate RDX, the perforation diameter of 5 mm thick lead plate showed that the initiation capacity of Al@KIO4 and Al@NaIO4 nano-thermites were comparable to LA. According to the perforation diameters, the order of initiating power is LA>Al@NaIO4>Al@KIO4>LTNR.

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万早雁,李晨,李燕,等.新型碱金属高碘酸盐纳米铝热剂的反应特性[J].含能材料,2022,30(4):316-323.
WAN Zao-yan, LI Chen, LI Yan, et al. Reaction Characteristics of the Novel Alkali Metal Periodate Nano-thermite[J]. Chinese Journal of Energetic Materials,2022,30(4):316-323.

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History
  • Received:December 03,2021
  • Revised:March 21,2022
  • Adopted:March 17,2022
  • Online: March 18,2022
  • Published: April 25,2022