Effects of Different Guests on Pyrolysis Mechanism of α-CL-20/Guest at High Temperatures by Reactive Molecular Dynamics Simulations at High Temperatures

The host-guest inclusion strategy has the potential to surpass the limitations of energy density and suboptimal performances of single explosives. The guest molecules can not only enhance the detonation performance of host explosives but also can enhance their stability. Therefore, a deep analysis o...

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Bibliographic Details
Published in:International journal of molecular sciences 2023-01, Vol.24 (3), p.1840
Main Authors: Zhou, Mingming, Luo, Jing, Xiang, Dong
Format: Article
Language:English
Subjects:
Carbon Dioxide
Decomposition
Decomposition reactions
Detonation
Energy
Energy levels
Explosives
Heat
High temperature
Molecular dynamics
Molecular Dynamics Simulation
Nitrogen
Nitrous oxide
Nitrous Oxide - metabolism
Phase transitions
Pyrolysis
Simulation
Stability analysis
Temperature
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Summary:The host-guest inclusion strategy has the potential to surpass the limitations of energy density and suboptimal performances of single explosives. The guest molecules can not only enhance the detonation performance of host explosives but also can enhance their stability. Therefore, a deep analysis of the role of guest influence on the pyrolysis decomposition of the host-guest explosive is necessary. The whole decomposition reaction stage of CL-20/H O, CL-20/CO , CL-20/N O, CL-20/NH OH was calculated by ReaxFF-MD. The incorporation of CO , N O and NH OH significantly increase the energy levels of CL-20. However, different guests have little influence on the initial decomposition paths of CL-20. The and values of CL-20/CO , CL-20/N O, CL-20/NH OH systems are higher than the CL-20/H O system. Clearly, incorporation of CO , N O, NH OH can inhibit the initial decomposition and intermediate decomposition stage of CL-20/H O. Guest molecules become heavily involved in the reaction and influence on the reaction rates. of CL-20/N O and CL-20/NH OH systems are significantly larger than that of CL-20/H O at high temperatures. of CL-20/CO system is very complex, which can be affected deeply by temperatures. of the CL-20/CO , CL-20/N O systems is significantly smaller than that of CL-20/H O at high temperatures. of CL-20/NH OH system shows little difference at high temperatures. For the CL-20/CO system, the value of CO is slightly higher than that for CL-20/H O, CL-20/N O, CL-20/NH OH systems, while the values of N and H O are slightly smaller than that for the CL-20/H O, CL-20/N O, CL-20/NH OH systems. For the CL-20/N O system, the value of CO is slightly smaller than that for CL-20/H O, CL-20/CO , CL-20/NH OH systems. For the CL-20/NH OH system, the value of H O is slightly larger than that for CL-20/H O, CL-20/CO , CL-20/N O systems. These mechanisms revealed that CO , N O and NH OH molecules inhibit the early stages of the initial decomposition of CL-20 and play an important role for the decomposition subsequently.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms24031840