CHINESE JOURNAL OF ENERGETIC MATERIALS
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Combined ARC-MS Study and ReaxFF Molecular Dynamics Simulations on Thermal Decomposition Mechanisms of DNP
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1.School of Chemical Engineering and Technology, North University of China, Taiyuan 030051, China;2.Gansu Yin Guang Chemical Industry Group Co.Ltd, Baiyin 730900, China

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    Abstract:

    ReaxFF molecular dynamics (ReaxFF MD) simulations were adopted to identify the main intermediate products, final products and chemical reactions during 3,4-dinitro-1H-pyrazole (DNP) thermal decomposition. Accelerating rate calorimeter (ARC)-mass spectrometer (MS) technique was adopted to study DNP thermal decomposition properties and identify the gaseous products. The simulated results illustrate that C3HO4N4, C3HO3N4, C3HO2N3, C3HNO2, NO2 are the main intermediate products, and H2O, CO2, N2 are the main final products. MS detected main gaseous products are H2O, CO2, N2 as well. According to the simulation results, the produced time and abundance of the products are obtained as well. Among which C3HO3N4 is the first generated intermediate product, and H2O is the first generated final product. C3HO3N4 and N2 are the intermediate and final products with the largest amount, respectively. Additionally, the main chemical reactions in DNP thermal decomposition process are also acquired by molecular dynamics simulations. According to the generation time and abundance of products, the decomposition path of DNP was obtained.

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兰贯超,张琳升,刘学英,等. DNP热分解机理的ReaxFF模拟[J].含能材料,2022,30(5):491-501.
LAN Guan-chao, ZHANG Lin-sheng, LIU Xue-ying, et al. Combined ARC-MS Study and ReaxFF Molecular Dynamics Simulations on Thermal Decomposition Mechanisms of DNP[J]. Chinese Journal of Energetic Materials,2022,30(5):491-501.

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History
  • Received:July 17,2021
  • Revised:April 02,2022
  • Adopted:March 30,2022
  • Online: March 31,2022
  • Published: May 25,2022