On the Way to Real Applications: Aluminum Matrix Syntactic Foams

European Mechanical Science Pub Date : 2020-09-20 DOI:10.26701/ems.703619

Çağın Bolat, İ. C. Akgün, A. Gökşenli

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引用次数: 23

Abstract

In recent times, aluminum matrix syntactic foams (AMSFs) have become considerably attractive for many industries such as automotive, aviation, aerospace and composite sector due to their features of low density, good compression strength, perfect energy absorption capacity and good ductility. Since the AMSF includes filler materials providing high porosity, it can be also named as composite foam and can be placed between traditional metal foams and particle reinforced composites. Glass and ceramic hollow spheres, fly ash cenospheres and ceramic porous materials are usually used in the AMSFs, but, lately, different types of fillers being cheaper and stronger have also being investigated. Although many scientific efforts have been made for the last decade to understand mechanical and physical properties of these advanced materials, studies have mainly been performed on relatively small size samples and remained in laboratory. Therefore, there is still room for improvement in terms of fabrication techniques. In this paper, our aims are to scrutinize newest studies about ASMFs, to create new viewpoints and to introduce an alternative bright perspective for probable real applications.

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在通往实际应用的道路上:铝基复合泡沫

近年来，铝基复合泡沫材料以其密度低、抗压强度好、吸能能力好、延展性好等特点，在汽车、航空、航天、复合材料等领域受到广泛关注。由于AMSF包含提供高孔隙率的填充材料，因此它也可以被称为复合泡沫，可以放置在传统的金属泡沫和颗粒增强复合材料之间。玻璃和陶瓷空心球、粉煤灰微球和陶瓷多孔材料通常用于amsf，但近年来，人们也在研究更便宜、更强的不同类型的填料。虽然在过去的十年里，人们已经做出了许多科学努力来了解这些先进材料的机械和物理特性，但这些研究主要是在相对较小的样品上进行的，而且还停留在实验室里。因此，在制造技术方面仍有改进的空间。在本文中，我们的目的是仔细审查有关asmf的最新研究，创造新的观点，并为可能的实际应用介绍另一种光明的前景。

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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European Mechanical Science

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