Microstructure, Mechanical, and Tribological Properties of TiC- and Ni-Reinforced AA6061 Matrix Composite Fabricated Through Stir Casting

IF 1.6 4区 材料科学 Q2 Materials Science
Chandan Prasad, A. Gali
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Abstract

Aluminum matrix composites incorporating titanium carbide (TiC) and nickel (Ni) were fabricated through the ultrasonic-assisted stir-casting technique. Micrographs revealed the uniform dispersion of TiC particles within the matrix, while Ni reacted with aluminum, forming the intermetallic compound Al3Ni, dispersed along the grain boundaries. The incorporation of TiC and Ni resulted in a considerable decrease in grain size from ~ 130 to ~ 49 µm. Notably, the incorporation of 3 wt% TiC and 6 wt% Ni (sample S(3,6)) exhibited a substantial increase in yield strength (YS), ultimate tensile strength (UTS), and hardness by 51.11%, 32.57%, and 46.96%, respectively, compared to the unreinforced sample S(0,0). The observed improvements in these properties can be ascribed to a mix of factors, including grain refinement, Al3Ni precipitate hardening, and dispersion hardening facilitated by the TiC particles. The increase in reinforcement weight percentage results in a decrease in the wear rate of reinforced composites, while wear rates for these composites exhibit a linear increase with a change in load from 10 to 20 N.

Abstract Image

通过搅拌铸造制造的 TiC 和 Ni- 增强 AA6061 基质复合材料的微观结构、力学和摩擦学特性
通过超声波辅助搅拌铸造技术制造了含有碳化钛(TiC)和镍(Ni)的铝基复合材料。显微照片显示,TiC 颗粒均匀地分散在基体中,而镍与铝发生反应,形成金属间化合物 Al3Ni,沿晶界分散。加入 TiC 和 Ni 后,晶粒尺寸从约 130 微米大幅减小到约 49 微米。值得注意的是,掺入 3 wt% TiC 和 6 wt% Ni(样品 S(3,6))的屈服强度 (YS)、极限拉伸强度 (UTS) 和硬度与未强化的样品 S(0,0) 相比分别大幅提高了 51.11%、32.57% 和 46.96%。这些性能的改善可归因于多种因素,包括晶粒细化、Al3Ni 沉淀硬化以及 TiC 粒子促进的分散硬化。增强重量百分比的增加导致增强复合材料磨损率的降低,而这些复合材料的磨损率随着负载从 10 N 到 20 N 的变化呈线性增加。
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来源期刊
Transactions of The Indian Institute of Metals
Transactions of The Indian Institute of Metals Materials Science-Metals and Alloys
CiteScore
2.60
自引率
6.20%
发文量
3
期刊介绍: Transactions of the Indian Institute of Metals publishes original research articles and reviews on ferrous and non-ferrous process metallurgy, structural and functional materials development, physical, chemical and mechanical metallurgy, welding science and technology, metal forming, particulate technologies, surface engineering, characterization of materials, thermodynamics and kinetics, materials modelling and other allied branches of Metallurgy and Materials Engineering. Transactions of the Indian Institute of Metals also serves as a forum for rapid publication of recent advances in all the branches of Metallurgy and Materials Engineering. The technical content of the journal is scrutinized by the Editorial Board composed of experts from various disciplines of Metallurgy and Materials Engineering. Editorial Advisory Board provides valuable advice on technical matters related to the publication of Transactions.
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