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运用从头算分子动力学模拟高温耦合爆轰压力条件下α-RDX的分解机理(英)
作者:
作者单位:

(1. 南京理工大学化工学院, 江苏 南京 210094; 2. 南京工程学院材料科学与工程学院, 江苏 南京 211167)

作者简介:

XIANG Dong(1988-), female, doctoral candidate, molecular simulation and computational materials. e-mail: 2247704093@qq.com Corresponding Author: ZHU Wei-hua(1969-), male, professor, molecular simulation and computational materials. e-mail: zhuwh@njust.edu.cn

通讯作者:

ZHU Wei-hua(1969-), male, professor, molecular simulation and computational materials. e-mail: zhuwh@njust.edu.cn

基金项目:

The NSAF Foundation of National Natural Science Foundation of China and China Academy of Engineering Physics (U1530104) and the Science Challenging Program Biography: XIANG Dong(1988-), female, doctoral candidate, molecular simulation and computational materials. e-mail: 2247704093@qq.com


Decomposition Mechanisms of α-RDX Crystal Under High Temperature Coupled with Detonation Pressure by Ab Initio Molecular Dynamics Simulations
Author:
Affiliation:

(1. School of Chemical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China; 2. School of Materials Science and Engineering, Nanjing Institute of Technology, Nanjing 211167, China)

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    摘要:

    运用从头算分子动力学模拟了α-黑索今(RDX)晶体在高温(3000 K)耦合爆轰压力(34.5 GPa)下的初始和随后的分解机理。采用两种范德瓦尔斯修的修正方法(PBE-G06和PBE-TS)环境条件下对RDX的晶体结构进行了优化。结果表明,PBE-TS非常合适优化RDX。RDX分解中,C—H键均裂引发α-RDX分解。态密度的结果也证明了C—H键断键的现象。分解过程中发生了HONO的消去反应。产生NO2、NO、N2O、N2、HONO、N2O4、H、O—H、H2O和CO2为主要反应,发生在早期阶段。同时,RDX引发后的三种不同的分解途径分别为(1)C—N断键引发该环中其它C—N键断裂; (2)N—NO2断键并且释放NO2气体; (3)H自由基和氧原子碰撞形成O—H键后释放O—H自由基。

    Abstract:

    The initiation and subsequent decomposition mechanisms of α-RDX crystal under high temperature (3000 K) coupled with detonation pressure (34.5 GPa) were studied by ab initio molecular dynamics simulations. The crystal structure of RDX was relaxed using two types of van der Waals corrections such as PBEG06 and PBETS functional at ambient conditions. The results indicate that the PBEG06 functional is much suitable for studying α-RDX. Results show that the decomposition of α-RDX is triggered by the homolysis of the C—H bond. The DOS clearly validates that the C—H bond is broken. The elimination reaction of HONO during the decomposition is observed. The primary reactions for producing NO2, NO, N2O, N2, HONO, N2O4, H, O—H, H2O, and CO2 occur at very early stages. After the initiation of RDX, there are three different subsequent decomposition pathways. There are three main interesting subsequent decomposition paths include: (1) the C—N bond hemolysis triggers the other C—N bonds of this ring to break; (2) the dissociation of N—NO2 bond releases NO2 gas; (3) the H radical attacks the O atom to release O—H radical by forming O—H bond.

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向东,吴琼,朱卫华.运用从头算分子动力学模拟高温耦合爆轰压力条件下α-RDX的分解机理(英)[J].含能材料, 2018, 26(6):477-482. DOI:10.11943/j. issn.1006-9941.2018.06.003.
XIANG Dong, WU Qiong, ZHU Wei-hua. Decomposition Mechanisms of α-RDX Crystal Under High Temperature Coupled with Detonation Pressure by Ab Initio Molecular Dynamics Simulations[J]. Chinese Journal of Energetic Materials, 2018, 26(6):477-482. DOI:10.11943/j. issn.1006-9941.2018.06.003.

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  • 收稿日期: 2017-09-14
  • 最后修改日期: 2017-12-08
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  • 在线发布日期: 2018-06-20
  • 出版日期: 2018-06-25

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