Theoretical Approach to 1 Amp/1 Watt, No-Fire Ordnance Designs

IEEE Transactions on Aerospace Pub Date : 1965-06-01 DOI:10.1109/TA.1965.4319863

D. E. Davenport

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引用次数: 2

Abstract

A heat transfer analysis has been made of a typical ordnance header to derive the relationship between the various parameters which determine thermo-dissipative characteristics of the device. Because of the complex geometries and the large number of parameters involved, the solution to this general problem has long been regarded as too complex for direct solution. It has been shown that an equation may be greatly simplified and the number of parameters reduced to eight important ones so that the problem can be programmed for solution by a computer. The program yields temperature distributions as a function of both space and time and for time periods appropriate to the all-fire and the no-fire test conditions, i.e., milliseconds or five minutes. The solutions of the equation have been checked by over 400 firings with various header geometries, materials, and firing currents and found to be quite accurate. The solutions allow one to design ordnance hardware to have a wide range of all-fire characteristics for any designated no-fire characteristic. They also make it possible to predict the changes in ordnance design necessary to increase the no-fire characteristic from present one watt levels to 2, 5, or 10 watt no-fire levels.

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1安培/1瓦无火弹药设计的理论方法

本文对一种典型的弹药箱进行了传热分析，得出了决定该装置散热特性的各参数之间的关系。由于复杂的几何形状和涉及的大量参数，这一普遍问题的解决方案长期以来被认为过于复杂，无法直接解决。结果表明，一个方程可以大大简化，参数可以减少到8个重要参数，从而使问题可以用计算机编程求解。该程序产生温度分布作为空间和时间的函数，以及适合于全火和无火测试条件的时间段，即毫秒或五分钟。该方程的解已经通过400多次不同的头部几何形状，材料和射击电流的射击进行了检查，发现非常准确。解决方案允许人们设计军械硬件，使其具有广泛的全火力特性，以满足任何指定的无火力特性。它们还可以预测弹药设计的必要变化，以将无火特性从目前的1瓦水平增加到2、5或10瓦无火水平。

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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IEEE Transactions on Aerospace

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