Modeling of ignition in a single layer of impacted energetic crystals

Yan Quing Wu; Feng Lei Huang; Ming Huang

doi:10.1002/prep.201200035

Modeling of ignition in a single layer of impacted energetic crystals

Yan Quing Wu^*, Feng Lei Huang, Ming Huang

^*Corresponding author for this work

School of Mechatronical Engineering

China Academy of Engineering Physics

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

7 Citations (Scopus)

Abstract

A thermal-mechanical model for the ignition of a layer of cyclotetramethylene tetranitramine (HMX) particles under drop-weight impact was developed. Considering the micro-particle plasticity, frictional heating, melting, fracture, and chemical reaction at particle level, effects of loading parameters and sample characteristics on ignition and mechanical responses were discussed. The threshold values for ignition to occur under different loading conditions and various material parameters can be predicted. The model was validated by comparing experimental measured and calculated mean pressure-strain curves, which showed two turning points due to localized fragmentation and melting. Relationships between thermal and mechanical responses at the particle level were examined.

Original language	English
Pages (from-to)	214-223
Number of pages	10
Journal	Propellants, Explosives, Pyrotechnics
Volume	38
Issue number	2
DOIs	https://doi.org/10.1002/prep.201200035
Publication status	Published - Apr 2013

Keywords

Drop-weight impact
Explosive crystal
Ignition
Particle size
Thermal-mechanical model

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10.1002/prep.201200035

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Wu, Y. Q., Huang, F. L., & Huang, M. (2013). Modeling of ignition in a single layer of impacted energetic crystals. Propellants, Explosives, Pyrotechnics, 38(2), 214-223. https://doi.org/10.1002/prep.201200035

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abstract = "A thermal-mechanical model for the ignition of a layer of cyclotetramethylene tetranitramine (HMX) particles under drop-weight impact was developed. Considering the micro-particle plasticity, frictional heating, melting, fracture, and chemical reaction at particle level, effects of loading parameters and sample characteristics on ignition and mechanical responses were discussed. The threshold values for ignition to occur under different loading conditions and various material parameters can be predicted. The model was validated by comparing experimental measured and calculated mean pressure-strain curves, which showed two turning points due to localized fragmentation and melting. Relationships between thermal and mechanical responses at the particle level were examined.",

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AB - A thermal-mechanical model for the ignition of a layer of cyclotetramethylene tetranitramine (HMX) particles under drop-weight impact was developed. Considering the micro-particle plasticity, frictional heating, melting, fracture, and chemical reaction at particle level, effects of loading parameters and sample characteristics on ignition and mechanical responses were discussed. The threshold values for ignition to occur under different loading conditions and various material parameters can be predicted. The model was validated by comparing experimental measured and calculated mean pressure-strain curves, which showed two turning points due to localized fragmentation and melting. Relationships between thermal and mechanical responses at the particle level were examined.

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KW - Explosive crystal

KW - Ignition

KW - Particle size

KW - Thermal-mechanical model

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JO - Propellants, Explosives, Pyrotechnics

JF - Propellants, Explosives, Pyrotechnics

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Modeling of ignition in a single layer of impacted energetic crystals

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Keywords

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