Mechanical, Wear, and Fracture Behavior of Titanium Diboride (TiB2) - Cerium Oxide (CeO2) Reinforced Al-6061 Hot-rolled Hybrid Composites

IF 1.2 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Frattura ed Integrita Strutturale Pub Date : 2022-12-21 DOI:10.3221/igf-esis.63.22

S. R. Sreenivasa Iyengar, D. Sethuramu, M. Ravikumar

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引用次数: 2

Abstract

Development of aluminium composites by stircasting technique is an effective method for fabrication of better quality of MMCs. Stircasting technique is one of the most commonly accepted techniques. In this research work, Al6061 / TiB2+CeO2 hybrid MMCs have been fabricated with varying wt. % of TiB2 (2.5%, 5%, 7.5% and 10%) particulates and constant 5% of CeO2 particulates. The monolithic alloy and hybrid composite were hot-rolled at a temperature of 515°C. Whereas, both the monolithic and hot-rolled hybrid composite was subjected to micro-structural study, hardness and tensile test. Optical microscope analysis revealed uniform dispersal of hard particles with in the base matrix in case of both of ascast and hot-rolled composites. Both ascast and hotrolled hybrid composites have shown extensive enhanced mechanical behavior and high wear resistance when compared with monolithic alloy. Though, ductility of the hybrid MMCs decreased with increasing TiB2 and CeO2 content. A tensile and wear fractography outcome shows the internal fractured structure of a tensile and wear specimen which was analysed using a SEM analysis.

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二硼化钛(TiB2) -氧化铈(CeO2)增强Al-6061热轧复合材料的力学、磨损和断裂行为

利用搅拌铸造技术制备铝基复合材料是制备高质量MMCs的有效方法。Stircasting技术是最常用的技术之一。在这项研究工作中，用不同重量%的TiB2（2.5%、5%、7.5%和10%）颗粒和恒定5%的CeO2颗粒制备了Al6061/TiB2+CeO2杂化MMCs。整体合金和混合复合材料在515°C的温度下热轧。然而，对单片和热轧混杂复合材料进行了微观结构研究、硬度和拉伸试验。光学显微镜分析显示，在铸造和热轧复合材料的情况下，硬质颗粒在基体中均匀分散。与整体合金相比，铸轧和热轧混合复合材料都表现出广泛增强的力学性能和高耐磨性。然而，混杂MMCs的延展性随着TiB2和CeO2含量的增加而降低。拉伸和磨损断口分析结果显示了使用SEM分析的拉伸和磨损试样的内部断裂结构。

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