Analytical engineering models of high speed normal impact by hard projectiles on metal shields

Central European Journal of Engineering Pub Date : 2013-09-01 DOI:10.2478/s13531-013-0108-7

G. Ben-Dor, A. Dubinsky, T. Elperin

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引用次数: 9

Abstract

In this review we consider mainly relatively simple engineering models which can be physically substantiated although usually their justification requires a large number of assumptions. These models are characterized by the following features in the case of normal impact: either they determine the relations between the ”integral characteristics” of penetration (depth of penetration, ballistic limit velocity) in the explicit form (in algebraic form or including quadratures) or they describe local interactions between the shield and the penetrator in the points of the penetrator-shield contact surface that yield such integral characteristics. In this overview we present more or less comprehensively all widely used and also not well known analytical models which have been suggested for describing high-speed penetration into metal shields. This survey is characterized by the following distinguishing features: (i) includes an unprecedented large number of models; (ii) presents models suggested during recent years; (iii) analyzes models which have been originally published in Russian and are not well known in the West.

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硬弹丸高速法向撞击金属护罩的分析工程模型

在本综述中，我们主要考虑相对简单的工程模型，这些模型可以在物理上得到证实，尽管它们的证明通常需要大量的假设。在正常冲击的情况下，这些模型具有以下特征:它们要么以显式形式(以代数形式或包括正交形式)确定侵彻的“积分特性”(侵彻深度、弹道极限速度)之间的关系，要么描述在产生这些积分特性的侵彻-护盾接触面的点上，护盾和侵彻之间的局部相互作用。在这篇综述中，我们或多或少地全面介绍了所有广泛使用的和不为人所知的分析模型，这些模型被建议用于描述金属屏蔽的高速穿透。该调查具有以下显著特征:(i)包括前所未有的大量模型;(ii)介绍近年来提出的模式;(iii)分析最初以俄文出版、在西方不为人所知的模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Central European Journal of Engineering

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