Review of Nano-thermites; a Pathway to Enhanced Energetic Materials

IF 0.7 4区工程技术 Q4 CHEMISTRY, APPLIED Central European Journal of Energetic Materials Pub Date : 2021-03-30 DOI:10.22211/CEJEM/134953

M. Zaky, A. Elbeih, T. Elshenawy

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引用次数: 9

Abstract

Nano-thermites or metastable intermolecular composites (MICs) have been implemented into modern research on energetic materials as they offer much higher energy densities, higher rates of energy release, stability, and safety (lower sensitivity). This paper reviews several synthetic methods for MICs that have been well thought-out for energetic applications, advantages and disadvantages, as well as the characteristics of each manufacturing technique. The techniques presented include powder mixing, sol-gel, synthesis of MICs based on nano-porous silicon (Psi), sputtering, multilayer nano-foils and electrolytically plated carbon nano-materials for nano-thermite applications. These techniques offer enormously different characteristics and, through the variation of various chemical techniques and conditions, a wide range of chemical and energetic properties may be attained. This may give the opportunity for the safe use of MICs as replacements for some conventional energetic materials in various applications, and may also enable us to study the effects when incorporating these MICs into energetic matrixes, as a promising and feasible research field.

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纳米铝热剂综述；增强含能材料的途径

纳米铝热剂或亚稳态分子间复合材料（MIC）已被应用于含能材料的现代研究，因为它们提供了更高的能量密度、更高的能源释放率、稳定性和安全性（较低的灵敏度）。本文综述了在高能应用中经过深思熟虑的MIC的几种合成方法、优缺点以及每种制造技术的特点。介绍的技术包括粉末混合、溶胶-凝胶、基于纳米多孔硅（Psi）的MIC合成、溅射、多层纳米箔和用于纳米铝热剂应用的电解镀碳纳米材料。这些技术提供了极其不同的特性，并且通过各种化学技术和条件的变化，可以获得广泛的化学和能量特性。这可能为MIC在各种应用中作为一些传统含能材料的替代品的安全使用提供了机会，也可能使我们能够研究将这些MIC结合到含能基质中时的影响，这是一个有前景和可行的研究领域。

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来源期刊

Central European Journal of Energetic Materials CHEMISTRY, APPLIED-ENGINEERING, CHEMICAL

CiteScore

1.80

自引率

25.00%

发文量

审稿时长

>12 weeks

期刊介绍： CEJEM – the newest in Europe scientific journal on energetic materials It provides a forum for scientists interested in the exchange of practical and theoretical knowledge concerning energetic materials: propellants, explosives and pyrotechnics. The journal focuses in particular on the latest results of research on various problems of energetic materials. Topics: ignition, combustion and detonation phenomenon; formulation, synthesis and processing; analysis and thermal decomposition; toxicological, environmental and safety aspects of energetic materials production, application, utilization and demilitarization; molecular orbital calculations; detonation properties and ballistics; biotechnology and hazards testing CEJEM presents original research and interesting reviews. Contributions are from experts in chemistry, physics and engineering from leading research centers in Europe, America and Asia. All submissions are independently refereed by Editorial Board members and by external referees chosen on international basis.