Effect of GNFs/Al Interfacial Characteristics on the Mechanical Properties of Graphene Nanoflakes Reinforced Aluminum Matrix Composites

机译：GNFS / Al界面特性对石墨烯纳米薄膜力学性能的影响铝基基复合材料

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Graphene nanoflakes-reinforced aluminum matrix composites (GNFs/Al) with 1.0 wt.% GNFs were fabricated by a spark plasma sintering (SPS) method under two different condition. The microstructural and interfacial characteristics of the two composites were systematically investigated, and their different tensile mechanical properties were found to depend strongly on the GNFs/Al interfacial characteristics. Prolonged sintering in SPS should be avoided as it promotes obvious interfacial reaction that degrades the mechanical properties. The enhanced mechanical properties of the GNFs/Al composites in this study can be ascribed to their exquisite microstructures, specifically the well-maintained structure of raw reinforcement, the uniform GNF distribution and their parallel alignment with the tensile direction, the absence of mass interfacial reaction, and the good interface bonding.

机译：石墨烯纳米薄片 - 增强的铝基基复合材料（GNFS / Al），其中1.0重量％。通过在两种不同条件下通过火花等离子体烧结（SPS）方法制造％GNF。系统地研究了两种复合材料的微观结构和界面特征，并发现其不同的拉伸力学性能依赖于GNF / Al界面特征。应避免在SPS中延长烧结，因为它促进了显而易见的界面反应，从而降低了机械性能。本研究中GNFS / Al复合材料的增强力学性能可以归因于它们精湛的微观结构，特别是良好的原始加固结构，均匀的GNF分布及其与拉伸方向的平行对准，没有大规模界面反应，以及良好的界面粘合。

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《International Workshop on Materials Science and Mechanical Engineering》|2018年|415 p.|共8页
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S Z Zhao; S J Yan; X Chen;
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中图分类工程材料学;
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Effect of GNFs/Al Interfacial Characteristics on the Mechanical Properties of Graphene Nanoflakes Reinforced Aluminum Matrix Composites

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