A detailed model for the decomposition of nitramines: RDX and HMX

Debashis Chakraborty; Richard P. Muller; Siddharth Dasgupta; William A. Goddard

doi:10.1023/A:1020074113000

A detailed model for the decomposition of nitramines: RDX and HMX

Debashis Chakraborty
, Richard P. Muller
, Siddharth Dasgupta
, William A. Goddard

Beckman Institute

Research output: Contribution to journal › Conference article › peer-review

Abstract

A unified decomposition scheme for two very important cyclic nitramines used as primary explosives RDX and HMX - has been constructed using ab initio Density Functional Theory (DFT) calculations. Molecular parameters such as vibrational frequencies and moments of inertia corresponding to the computed potential energy profile of unimolecular decomposition of these nitramines were then used to obtain the thermochemistry of all identified species and reaction rate constants of each individual channel. These primary decomposition reactions were then combined with: (i) important secondary reactions of the key reactive radical intermediates, such as CH₂NNO₂ (Methylene Nitramine MN), CH₂N, NO, NO₂, OH, etc.; (ii) existing nitramie reaction networks [33]. We have developed an improved mechanism for the detailed chemistry of nitramines which can be applied to combustion and detonation phenomena of this class of energetic materials.

Original language	English
Pages (from-to)	203-212
Number of pages	10
Journal	Journal of Computer-Aided Materials Design
Volume	8
Issue number	2-3
DOIs	https://doi.org/10.1023/A:1020074113000
Publication status	Published - 1 Jan 2001
Externally published	Yes
Event	3rd Annual Caltech ASCI/ASAP Center materials Properties Workshop - Urbana, IL, United States Duration: 24 Jan 2001 → 25 Jan 2001

Keywords

Detonation
Nitramines
Quantum chemistry
Reaction kinetics

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10.1023/A:1020074113000

Cite this

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title = "A detailed model for the decomposition of nitramines: RDX and HMX",

abstract = "A unified decomposition scheme for two very important cyclic nitramines used as primary explosives RDX and HMX - has been constructed using ab initio Density Functional Theory (DFT) calculations. Molecular parameters such as vibrational frequencies and moments of inertia corresponding to the computed potential energy profile of unimolecular decomposition of these nitramines were then used to obtain the thermochemistry of all identified species and reaction rate constants of each individual channel. These primary decomposition reactions were then combined with: (i) important secondary reactions of the key reactive radical intermediates, such as CH2NNO2 (Methylene Nitramine MN), CH2N, NO, NO2, OH, etc.; (ii) existing nitramie reaction networks [33]. We have developed an improved mechanism for the detailed chemistry of nitramines which can be applied to combustion and detonation phenomena of this class of energetic materials.",

keywords = "Detonation, Nitramines, Quantum chemistry, Reaction kinetics",

author = "Debashis Chakraborty and Muller, \{Richard P.\} and Siddharth Dasgupta and Goddard, \{William A.\}",

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doi = "10.1023/A:1020074113000",

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T2 - 3rd Annual Caltech ASCI/ASAP Center materials Properties Workshop

AU - Chakraborty, Debashis

AU - Muller, Richard P.

AU - Dasgupta, Siddharth

AU - Goddard, William A.

PY - 2001/1/1

Y1 - 2001/1/1

N2 - A unified decomposition scheme for two very important cyclic nitramines used as primary explosives RDX and HMX - has been constructed using ab initio Density Functional Theory (DFT) calculations. Molecular parameters such as vibrational frequencies and moments of inertia corresponding to the computed potential energy profile of unimolecular decomposition of these nitramines were then used to obtain the thermochemistry of all identified species and reaction rate constants of each individual channel. These primary decomposition reactions were then combined with: (i) important secondary reactions of the key reactive radical intermediates, such as CH2NNO2 (Methylene Nitramine MN), CH2N, NO, NO2, OH, etc.; (ii) existing nitramie reaction networks [33]. We have developed an improved mechanism for the detailed chemistry of nitramines which can be applied to combustion and detonation phenomena of this class of energetic materials.

AB - A unified decomposition scheme for two very important cyclic nitramines used as primary explosives RDX and HMX - has been constructed using ab initio Density Functional Theory (DFT) calculations. Molecular parameters such as vibrational frequencies and moments of inertia corresponding to the computed potential energy profile of unimolecular decomposition of these nitramines were then used to obtain the thermochemistry of all identified species and reaction rate constants of each individual channel. These primary decomposition reactions were then combined with: (i) important secondary reactions of the key reactive radical intermediates, such as CH2NNO2 (Methylene Nitramine MN), CH2N, NO, NO2, OH, etc.; (ii) existing nitramie reaction networks [33]. We have developed an improved mechanism for the detailed chemistry of nitramines which can be applied to combustion and detonation phenomena of this class of energetic materials.

KW - Detonation

KW - Nitramines

KW - Quantum chemistry

KW - Reaction kinetics

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DO - 10.1023/A:1020074113000

M3 - Conference article

AN - SCOPUS:0036037743

SN - 0928-1045

VL - 8

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JO - Journal of Computer-Aided Materials Design

JF - Journal of Computer-Aided Materials Design

IS - 2-3

Y2 - 24 January 2001 through 25 January 2001

ER -

A detailed model for the decomposition of nitramines: RDX and HMX

Abstract

Keywords

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