施加的热流对爆炸装置反应强度的影响

Proceedings of the Conference on Extreme Science and Engineering Discovery Environment: Gateway to Discovery Pub Date : 2013-07-22 DOI:10.1145/2484762.2484786

Monica Hall, Jacqueline C. Beckvermit, C. Wight, T. Harman, M. Berzins

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引用次数: 3

摘要

众所周知，慢炖爆炸的强度可以大大超过通常在快速加热时观察到的相对温和的爆炸事件。然而，很少有研究将反应强度作为应用热通量的函数来研究加热几何形状和装置尺寸的依赖性。在这里，我们报告了使用犹他计算框架的研究进展，这是一种高性能计算机模型，能够模拟PBX9501和类似爆炸物的爆燃，材料损伤，爆燃到爆轰过渡和爆轰。我们的结果表明，随着热通量的减少，反应强度的增加存在一个明显的阈值。临界热流密度随器件尺寸的增大而增大，随多表面加热而减小，表明被加热含能材料的温度梯度对反应强度起重要作用。

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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The influence of an applied heat flux on the violence of reaction of an explosive device

It is well known that the violence of slow cook-off explosions can greatly exceed the comparatively mild case burst events typically observed for rapid heating. However, there have been few studies that examine the reaction violence as a function of applied heat flux that explore the dependence on heating geometry and device size. Here we report progress on a study using the Uintah Computation Framework, a high-performance computer model capable of modeling deflagration, material damage, deflagration to detonation transition and detonation for PBX9501 and similar explosives. Our results suggests the existence of a sharp threshold for increased reaction violence with decreasing heat flux. The critical heat flux was seen to increase with increasing device size and decrease with the heating of multiple surfaces, suggesting that the temperature gradient in the heated energetic material plays an important role the violence of reactions.

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Proceedings of the Conference on Extreme Science and Engineering Discovery Environment: Gateway to Discovery

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