Microstructure and mechanical properties of aluminium matrix boron carbide and carbon nanofiber reinforced hybrid composites

IF 1.4 4区材料科学 Q3 MATERIALS SCIENCE, CERAMICS Science of Sintering Pub Date : 2022-01-01 DOI:10.2298/sos2202125o

Faik Okay, S. Islak

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Abstract

In this study, aluminium matrix boron carbide (B4C) and carbon nanofiber (CNF) reinforced hybrid composite was produced by powder metallurgy method and their microstructure and mechanical properties were investigated. The samples were produced at 6 percentage volume ratios using hot pressing technique. Microstructure examination, hardness measurement, transverse rupture test, and wear tests were carried out in order to determine the mechanical properties of the samples. Also three-point bending test was performed to determine their transverse rupture strength (TRS). Wear tests were carried out based on the ball on disc method. The microstructure examination revealed that the reinforcing elements were relatively homogeneously distributed in the aluminium matrix. In addition, the fracture was brittle due to the notch effect and agglomeration occurred with increasing amount of CNF. As the CNF amount of the samples increased, their hardness values increased but their TRS values decreased. Results of the wear test indicate that the increased amount of CNF increased the wear resistance. The friction coefficient values of the samples varied between 0.535 and 0.646. When the hardness was examined together with TRS and wear test results, the most suitable sample was determined to be Al-7%B4C-1%CNF

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铝基碳化硼与纳米碳纤维增强混杂复合材料的组织与力学性能

采用粉末冶金法制备了铝基碳化硼(B4C)和纳米碳纤维(CNF)增强混杂复合材料，并对其显微组织和力学性能进行了研究。样品以6个百分点的体积比使用热压技术生产。为确定试样的力学性能，进行了显微组织检查、硬度测试、横向断裂试验和磨损试验。并进行三点弯曲试验，以确定其横向断裂强度(TRS)。采用球盘法进行了磨损试验。显微组织分析表明，增强元素在铝基体中分布较为均匀。此外，随着CNF用量的增加，断口受缺口效应影响呈脆性断裂，并出现团聚现象。随着CNF用量的增加，样品的硬度值升高，而TRS值降低。磨损试验结果表明，CNF用量的增加提高了耐磨性。试样的摩擦系数值在0.535 ~ 0.646之间。结合硬度测试和磨损试验结果，确定了Al-7%B4C-1%CNF为最合适的材料

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来源期刊

Science of Sintering 工程技术-材料科学：硅酸盐

CiteScore

2.50

自引率

46.70%

发文量

审稿时长

3.3 months

期刊介绍： Science of Sintering is a unique journal in the field of science and technology of sintering. Science of Sintering publishes papers on all aspects of theoretical and experimental studies, which can contribute to the better understanding of the behavior of powders and similar materials during consolidation processes. Emphasis is laid on those aspects of the science of materials that are concerned with the thermodynamics, kinetics and mechanism of sintering and related processes. In accordance with the significance of disperse materials for the sintering technology, papers dealing with the question of ultradisperse powders, tribochemical activation and catalysis are also published. Science of Sintering journal is published four times a year. Types of contribution: Original research papers, Review articles, Letters to Editor, Book reviews.