Spark Plasma Sintering of Al2O3 Reinforced Aluminum Alloy Metal Matrix Composites (Review)

IF 0.9 4区 材料科学 Q3 MATERIALS SCIENCE, CERAMICS
Ananth S. Iyengar, R. Suresh
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Abstract

Aluminum matrix nanocomposites (AMNCs) are a distinct category of advanced materials that incorporate nanoscale reinforcement in a ductile material matrix. Various nanomaterial reinforcements for AMNCs have been reported in the literature, including multi-walled carbon nanotubes (MWCNT), graphene nanoplatelets, silicon carbide, and boron nitride. These classes of materials have been described to exhibit both improvements and reductions in mechanical properties. The interfacial material phases result in low-strength materials. Improvements in mechanical properties are attributed by refined grain size and shape for both the matrix material and the reinforcement agent. These materials demonstrate higher hardness, yield strength, and wear corrosion compared to conventionally prepared aluminum composites. Spark plasma sintering (SPS) is one of the non-conventional sintering methods used to prepare metal matrix composites, resulting in fully dense composite materials. The SPS-produced metal matrix composite can be manufactured rapidly and finds its applications in the automotive, aerospace, and defense industries. This review provides an overview and current status of metal matrix composites regarding matrix and reinforcing materials and the SPS process for producing metal matrix composites.

Abstract Image

Abstract Image

火花等离子烧结 Al2O3 增强铝合金金属基复合材料(综述)
铝基纳米复合材料(AMNCs)是一种独特的先进材料,它在韧性材料基体中加入了纳米级增强材料。文献中报道了用于 AMNC 的各种纳米材料增强材料,包括多壁碳纳米管 (MWCNT)、石墨烯纳米片、碳化硅和氮化硼。据描述,这些材料既能改善机械性能,也能降低机械性能。界面材料相导致材料强度低。基体材料和增强剂的晶粒大小和形状都经过改进,从而提高了机械性能。与传统制备的铝复合材料相比,这些材料具有更高的硬度、屈服强度和磨损腐蚀性。火花等离子烧结法(SPS)是用于制备金属基复合材料的非常规烧结方法之一,可获得完全致密的复合材料。SPS 生产的金属基复合材料可以快速制造,并可应用于汽车、航空航天和国防工业。本综述概述了金属基复合材料在基体和增强材料方面的现状,以及生产金属基复合材料的 SPS 工艺。
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来源期刊
Powder Metallurgy and Metal Ceramics
Powder Metallurgy and Metal Ceramics 工程技术-材料科学:硅酸盐
CiteScore
1.90
自引率
20.00%
发文量
43
审稿时长
6-12 weeks
期刊介绍: Powder Metallurgy and Metal Ceramics covers topics of the theory, manufacturing technology, and properties of powder; technology of forming processes; the technology of sintering, heat treatment, and thermo-chemical treatment; properties of sintered materials; and testing methods.
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