Measurement, self-similarity, and TNT equivalence of blasts from exploding wires

IF 1.7 4区工程技术 Q3 MECHANICS

Shock Waves Pub Date : 2025-01-17 DOI:10.1007/s00193-024-01209-x

A. Morsel, F. Masi, P. Kotronis, I. Stefanou

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引用次数: 0

Abstract

Reduced-scale experiments offer a controlled and safe environment for studying the effects of blasts on structures. Traditionally, these experiments rely on the detonation of solid or gaseous explosive mixtures, with only limited understanding of alternative explosive sources. This paper presents a detailed investigation of the blasts produced by exploding aluminum wires for generating shock waves of controlled energy levels. We meticulously design our experiments to ensure a precise quantification of the underlying uncertainties and conduct comprehensive parametric studies. We draw practical relationships of the blast intensity with respect to the stand-off distance and the stored energy levels. The analysis demonstrates self-similarity of blasts with respect to the conventional concept of the scaled distance, a desirable degree of sphericity of the generated shock waves, and high repeatability. Finally, we quantify the equivalence of the reduced-scale blasts from exploding wires with high explosives, including TNT. This experimental setup and the present study demonstrate the high degree of robustness and effectiveness of exploding aluminum wires as a tool for controlled blast generation and reduced-scale structural testing.

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引线爆炸的测量、自相似性和TNT当量

小尺度实验为研究爆炸对结构的影响提供了一个可控的、安全的环境。传统上，这些实验依赖于固体或气体爆炸性混合物的爆炸，对替代爆炸性来源的了解有限。本文详细研究了铝丝爆炸产生可控能级激波所产生的爆炸。我们精心设计实验，以确保对潜在不确定性的精确量化，并进行全面的参数研究。我们绘制了爆炸强度与隔离距离和储存能级的实际关系。分析表明，与传统的尺度距离概念相比，爆炸具有自相似性，产生的冲击波具有理想的球形程度，并且具有较高的可重复性。最后，我们量化了用高炸药（包括TNT）爆炸的电线产生的缩小规模爆炸的当量。该实验装置和本研究表明，爆炸铝丝作为控制爆炸产生和缩小规模结构测试的工具，具有高度的鲁棒性和有效性。

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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来源期刊

Shock Waves 物理-力学

CiteScore

4.10

自引率

9.10%

发文量

审稿时长

17.4 months

期刊介绍： Shock Waves provides a forum for presenting and discussing new results in all fields where shock and detonation phenomena play a role. The journal addresses physicists, engineers and applied mathematicians working on theoretical, experimental or numerical issues, including diagnostics and flow visualization. The research fields considered include, but are not limited to, aero- and gas dynamics, acoustics, physical chemistry, condensed matter and plasmas, with applications encompassing materials sciences, space sciences, geosciences, life sciences and medicine. Of particular interest are contributions which provide insights into fundamental aspects of the techniques that are relevant to more than one specific research community. The journal publishes scholarly research papers, invited review articles and short notes, as well as comments on papers already published in this journal. Occasionally concise meeting reports of interest to the Shock Waves community are published.