Graphene-reinforced aluminium matrix nanocomposites: Fabrication, properties and applications

Advanced Nanocomposites Pub Date : 2024-12-19 DOI:10.1016/j.adna.2024.12.001

Fei Lin , Mengyuan Ren , Lisong Zhu , Fanghui Jia , Zhengyi Jiang

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Abstract

In recent decades, significant attention has been paid to aluminium matrix composites (AMCs) due to their superior properties such as lightweight, high strength, wear resistance and thermal conductivity. AMCs are widely applied in industries such as automotive, aerospace and electronics. Graphene, with its exceptional mechanical, thermal and electrical properties, is a type of promising reinforcement filler for AMCs, leading to the development of graphene-reinforced aluminium matrix nanocomposites (GRAMNs). GRAMNs offer enhanced overall performance, by combining the lightweight nature of aluminium with the superior characteristics of graphene. This review explores the role of graphene in AMCs, the fabrication techniques of GRAMNs and their mechanical, tribological, thermal and electrical properties. Although GRAMNs have significant potential, the challenges of their practical applications remain, particularly in the aspects of uniform dispersion of graphene, interfacial bonding between the matrix and graphene, as well as the large-scale production. It is critical to address these issues for future advancements and practical applications of GRAMNs.

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石墨烯增强铝基纳米复合材料：制造、性能和应用

近几十年来，铝基复合材料（AMCs）因其轻质、高强度、耐磨性和导热性等优异性能而备受关注。amc广泛应用于汽车、航空航天和电子等行业。石墨烯具有优异的机械、热学和电学性能，是一种很有前途的碳纤维增强填料，导致石墨烯增强铝基纳米复合材料（GRAMNs）的发展。通过将铝的轻质特性与石墨烯的优越特性相结合，GRAMNs提供了增强的整体性能。本文综述了石墨烯在纳米材料中的作用、纳米材料的制备技术及其机械、摩擦学、热学和电学性能。虽然石墨烯具有巨大的潜力，但其实际应用仍然存在挑战，特别是在石墨烯的均匀分散，基质与石墨烯之间的界面键合以及大规模生产方面。解决这些问题对于人工神经网络的未来发展和实际应用至关重要。

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Advanced Nanocomposites

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