Reactive hydrokinetics in the early stage of shock initiation of PBX 9501

Jun Chen; Zhan Dong Tian; Dai Peng Zeng; Zhen Yu Zhang; Zhuo Ping Duan

Reactive hydrokinetics in the early stage of shock initiation of PBX 9501

Jun Chen^*
, Zhan Dong Tian
, Dai Peng Zeng
, Zhen Yu Zhang
, Zhuo Ping Duan

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Through the application of Lambourn's CIM model, a simplified analytic method was proposed to study the post-shock reactive flow in the case of unknowing the real formula of reaction rate. Based on this method, a more reasonable empirical reaction rate can be extracted to better understand the initial hydrodynamic phenomenon during shock to detonation transition. The method assumes that reaction rate is a function of time. The history and relationship of particle velocity, pressure, extent of reaction and reaction rate can be obtained by combining with experimental particle velocity. The results show that the decrease of particle velocity on impact interface relates with extent of reaction, and peak reaction rate after shock wave appears within the peaks of particle velocity and pressure.

Original language	English
Pages (from-to)	331-336
Number of pages	6
Journal	Gaoya Wuli Xuebao/Chinese Journal of High Pressure Physics
Volume	27
Issue number	3
Publication status	Published - Jun 2013

Keywords

Analytic model
Characteristics
Reaction rate
Shock initiation

Cite this

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title = "Reactive hydrokinetics in the early stage of shock initiation of PBX 9501",

abstract = "Through the application of Lambourn's CIM model, a simplified analytic method was proposed to study the post-shock reactive flow in the case of unknowing the real formula of reaction rate. Based on this method, a more reasonable empirical reaction rate can be extracted to better understand the initial hydrodynamic phenomenon during shock to detonation transition. The method assumes that reaction rate is a function of time. The history and relationship of particle velocity, pressure, extent of reaction and reaction rate can be obtained by combining with experimental particle velocity. The results show that the decrease of particle velocity on impact interface relates with extent of reaction, and peak reaction rate after shock wave appears within the peaks of particle velocity and pressure.",

keywords = "Analytic model, Characteristics, Reaction rate, Shock initiation",

author = "Jun Chen and Tian, \{Zhan Dong\} and Zeng, \{Dai Peng\} and Zhang, \{Zhen Yu\} and Duan, \{Zhuo Ping\}",

year = "2013",

month = jun,

language = "English",

volume = "27",

pages = "331--336",

journal = "Gaoya Wuli Xuebao/Chinese Journal of High Pressure Physics",

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TY - JOUR

T1 - Reactive hydrokinetics in the early stage of shock initiation of PBX 9501

AU - Chen, Jun

AU - Tian, Zhan Dong

AU - Zeng, Dai Peng

AU - Zhang, Zhen Yu

AU - Duan, Zhuo Ping

PY - 2013/6

Y1 - 2013/6

N2 - Through the application of Lambourn's CIM model, a simplified analytic method was proposed to study the post-shock reactive flow in the case of unknowing the real formula of reaction rate. Based on this method, a more reasonable empirical reaction rate can be extracted to better understand the initial hydrodynamic phenomenon during shock to detonation transition. The method assumes that reaction rate is a function of time. The history and relationship of particle velocity, pressure, extent of reaction and reaction rate can be obtained by combining with experimental particle velocity. The results show that the decrease of particle velocity on impact interface relates with extent of reaction, and peak reaction rate after shock wave appears within the peaks of particle velocity and pressure.

AB - Through the application of Lambourn's CIM model, a simplified analytic method was proposed to study the post-shock reactive flow in the case of unknowing the real formula of reaction rate. Based on this method, a more reasonable empirical reaction rate can be extracted to better understand the initial hydrodynamic phenomenon during shock to detonation transition. The method assumes that reaction rate is a function of time. The history and relationship of particle velocity, pressure, extent of reaction and reaction rate can be obtained by combining with experimental particle velocity. The results show that the decrease of particle velocity on impact interface relates with extent of reaction, and peak reaction rate after shock wave appears within the peaks of particle velocity and pressure.

KW - Analytic model

KW - Characteristics

KW - Reaction rate

KW - Shock initiation

UR - https://www.scopus.com/pages/publications/84886233035

M3 - Article

AN - SCOPUS:84886233035

SN - 1000-5773

VL - 27

SP - 331

EP - 336

JO - Gaoya Wuli Xuebao/Chinese Journal of High Pressure Physics

JF - Gaoya Wuli Xuebao/Chinese Journal of High Pressure Physics

IS - 3

ER -

Reactive hydrokinetics in the early stage of shock initiation of PBX 9501

Abstract

Keywords

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