Isentropic Compression Loading Locus of α-RDX Based on Its Self-consistent Force Field

Hua Jie Song; Hua Li; Ping Zhang; Yan Qiang Yang; Feng Lei Huang

doi:10.11943/j.issn.1006-9941.2018.01.006

Isentropic Compression Loading Locus of α-RDX Based on Its Self-consistent Force Field

Hua Jie Song
, Hua Li
, Ping Zhang
, Yan Qiang Yang
, Feng Lei Huang

机电学院

IAPCM
China Academy of Engineering Physics

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Starting with the molecular structure of α-RDX, the non-empirical full atom self-consistent force field (SCFF) for the explosive was derived via the first principles including electronic structure theory, intermolecular perturbation theory, and based on the SCFF-phonon approach to calculating the anharmonic free energy, the isentropic locus for α-RDX was obtained, covering a pressure range from the ambient pressure to 55 GPa. The relationships between p(GPa)and V(cm³·mol^-1), and between T(K) and V(cm³·mol^-1) of the isentropic locus are: p=66.59633+4.52375exp(-V/0.68117)+16.56087exp(-V/4.31486)+35.94539exp(-V/32.26906) and lnT=5.06548+0.74774lnV-0.13886(lnV)², respectively. The SCFF and SCFF-phonon methods can be generalized toward other high energetic materials and thus provides an effective theoretical tool for constructing their precise EOSs and computing thermodynamic properties.

源语言	英语
页（从-至）	53-58
页数	6
期刊	Hanneng Cailiao/Chinese Journal of Energetic Materials
卷	26
期	1
DOI	https://doi.org/10.11943/j.issn.1006-9941.2018.01.006
出版状态	已出版 - 25 1月 2018

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title = "Isentropic Compression Loading Locus of α-RDX Based on Its Self-consistent Force Field",

abstract = "Starting with the molecular structure of α-RDX, the non-empirical full atom self-consistent force field (SCFF) for the explosive was derived via the first principles including electronic structure theory, intermolecular perturbation theory, and based on the SCFF-phonon approach to calculating the anharmonic free energy, the isentropic locus for α-RDX was obtained, covering a pressure range from the ambient pressure to 55 GPa. The relationships between p(GPa)and V(cm3·mol-1), and between T(K) and V(cm3·mol-1) of the isentropic locus are: p=66.59633+4.52375exp(-V/0.68117)+16.56087exp(-V/4.31486)+35.94539exp(-V/32.26906) and lnT=5.06548+0.74774lnV-0.13886(lnV)2, respectively. The SCFF and SCFF-phonon methods can be generalized toward other high energetic materials and thus provides an effective theoretical tool for constructing their precise EOSs and computing thermodynamic properties.",

keywords = "Atomic potential, Equation of state, Explosive, Phonon, Thermodynamic properties",

author = "Song, \{Hua Jie\} and Hua Li and Ping Zhang and Yang, \{Yan Qiang\} and Huang, \{Feng Lei\}",

year = "2018",

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day = "25",

doi = "10.11943/j.issn.1006-9941.2018.01.006",

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T1 - Isentropic Compression Loading Locus of α-RDX Based on Its Self-consistent Force Field

AU - Song, Hua Jie

AU - Li, Hua

AU - Zhang, Ping

AU - Yang, Yan Qiang

AU - Huang, Feng Lei

PY - 2018/1/25

Y1 - 2018/1/25

N2 - Starting with the molecular structure of α-RDX, the non-empirical full atom self-consistent force field (SCFF) for the explosive was derived via the first principles including electronic structure theory, intermolecular perturbation theory, and based on the SCFF-phonon approach to calculating the anharmonic free energy, the isentropic locus for α-RDX was obtained, covering a pressure range from the ambient pressure to 55 GPa. The relationships between p(GPa)and V(cm3·mol-1), and between T(K) and V(cm3·mol-1) of the isentropic locus are: p=66.59633+4.52375exp(-V/0.68117)+16.56087exp(-V/4.31486)+35.94539exp(-V/32.26906) and lnT=5.06548+0.74774lnV-0.13886(lnV)2, respectively. The SCFF and SCFF-phonon methods can be generalized toward other high energetic materials and thus provides an effective theoretical tool for constructing their precise EOSs and computing thermodynamic properties.

AB - Starting with the molecular structure of α-RDX, the non-empirical full atom self-consistent force field (SCFF) for the explosive was derived via the first principles including electronic structure theory, intermolecular perturbation theory, and based on the SCFF-phonon approach to calculating the anharmonic free energy, the isentropic locus for α-RDX was obtained, covering a pressure range from the ambient pressure to 55 GPa. The relationships between p(GPa)and V(cm3·mol-1), and between T(K) and V(cm3·mol-1) of the isentropic locus are: p=66.59633+4.52375exp(-V/0.68117)+16.56087exp(-V/4.31486)+35.94539exp(-V/32.26906) and lnT=5.06548+0.74774lnV-0.13886(lnV)2, respectively. The SCFF and SCFF-phonon methods can be generalized toward other high energetic materials and thus provides an effective theoretical tool for constructing their precise EOSs and computing thermodynamic properties.

KW - Atomic potential

KW - Equation of state

KW - Explosive

KW - Phonon

KW - Thermodynamic properties

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JO - Hanneng Cailiao/Chinese Journal of Energetic Materials

JF - Hanneng Cailiao/Chinese Journal of Energetic Materials

IS - 1

ER -

Isentropic Compression Loading Locus of α-RDX Based on Its Self-consistent Force Field

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