Simulation of variation of projectile nose during high-speed penetration into concrete

Liling He; Xiaowei Chen

Simulation of variation of projectile nose during high-speed penetration into concrete

Liling He^*
, Xiaowei Chen

^*Corresponding author for this work

China Academy of Engineering Physics

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

11 Citations (Scopus)

Abstract

A formula for estimating total mass loss of projectile was developed with the assumptions of the peeling of molten surface in projectile nose as the primary cause of mass loss and the frictional heat totally accepted by projectile. In combination of the linear relationship between friction work and work done by pressure, the receding displacement of every point on projectile surface, which is vertical to the projectile symmetry axis, is obtained based on the formula for estimating total mass loss. Thereby, the variation of projectile shape is simulated. The shape of residual projectile, the depth of penetration (DOP) and projectile mass loss obtained by calculation are in good consistency with the corresponding experimental results.

Original language	English
Pages (from-to)	707-715
Number of pages	9
Journal	Lixue Xuebao/Chinese Journal of Theoretical and Applied Mechanics
Volume	43
Issue number	4
Publication status	Published - Jul 2011
Externally published	Yes

Keywords

High-speed penetration
Mass abrasion
Normal penetration
Nose blunting
Variation of nose shape

Cite this

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title = "Simulation of variation of projectile nose during high-speed penetration into concrete",

abstract = "A formula for estimating total mass loss of projectile was developed with the assumptions of the peeling of molten surface in projectile nose as the primary cause of mass loss and the frictional heat totally accepted by projectile. In combination of the linear relationship between friction work and work done by pressure, the receding displacement of every point on projectile surface, which is vertical to the projectile symmetry axis, is obtained based on the formula for estimating total mass loss. Thereby, the variation of projectile shape is simulated. The shape of residual projectile, the depth of penetration (DOP) and projectile mass loss obtained by calculation are in good consistency with the corresponding experimental results.",

keywords = "High-speed penetration, Mass abrasion, Normal penetration, Nose blunting, Variation of nose shape",

author = "Liling He and Xiaowei Chen",

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AU - He, Liling

AU - Chen, Xiaowei

PY - 2011/7

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N2 - A formula for estimating total mass loss of projectile was developed with the assumptions of the peeling of molten surface in projectile nose as the primary cause of mass loss and the frictional heat totally accepted by projectile. In combination of the linear relationship between friction work and work done by pressure, the receding displacement of every point on projectile surface, which is vertical to the projectile symmetry axis, is obtained based on the formula for estimating total mass loss. Thereby, the variation of projectile shape is simulated. The shape of residual projectile, the depth of penetration (DOP) and projectile mass loss obtained by calculation are in good consistency with the corresponding experimental results.

AB - A formula for estimating total mass loss of projectile was developed with the assumptions of the peeling of molten surface in projectile nose as the primary cause of mass loss and the frictional heat totally accepted by projectile. In combination of the linear relationship between friction work and work done by pressure, the receding displacement of every point on projectile surface, which is vertical to the projectile symmetry axis, is obtained based on the formula for estimating total mass loss. Thereby, the variation of projectile shape is simulated. The shape of residual projectile, the depth of penetration (DOP) and projectile mass loss obtained by calculation are in good consistency with the corresponding experimental results.

KW - High-speed penetration

KW - Mass abrasion

KW - Normal penetration

KW - Nose blunting

KW - Variation of nose shape

UR - https://www.scopus.com/pages/publications/80052289118

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JO - Lixue Xuebao/Chinese Journal of Theoretical and Applied Mechanics

JF - Lixue Xuebao/Chinese Journal of Theoretical and Applied Mechanics

IS - 4

ER -

Simulation of variation of projectile nose during high-speed penetration into concrete

Abstract

Keywords

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