High Temperature Mechanical and Creep Performance of AA7075/TaC/Si3N4/Ti Hybrid Metal Matrix Composites

IF 0.5 Q4 ENGINEERING, MANUFACTURING International Journal of Manufacturing Materials and Mechanical Engineering Pub Date : 2021-01-01 DOI:10.4018/ijmmme.2021010104

D. Smart, J. Kumar, Joses Jenish Smart

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引用次数: 2

Abstract

An effort was contrived to incorporate aluminium alloy (AA) 7075 reinforced with Silicon Nitride (Si3N4), Tantalum Carbide (TaC), and Titanium (Ti) particulates using conventional stir casting technique. The tension and creep investigations of these composite materials were analysed at room and elevated temperature to regulate their strain to failure and ultimate tensile strength (UTS). The data obtained inferred that addition of these ceramic reinforcements was naturally enhanced the mechanical and creep properties. Strength due to elongation was observed as high as 111.41 N/mm2 at 120°C when compared to unalloyed aluminium alloy. The load tests analysis reveals that the increase in reinforcement wt% of TaC and Ti combinations leads to increase in resistance for deformation failure and the composite is able to with stand 500 kg load at 120°C. The results of the creep tests shows that the ability of the material to with stand an higher cycle time of more than 30,000 seconds when the strain value is 0.02 wt% of reinforcement are 0.5% of TaC, 6% of Si3N4, and 1% of Ti.

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AA7075/TaC/Si3N4/Ti复合金属基复合材料的高温力学和蠕变性能

试图使用传统的搅拌铸造技术结合用氮化硅（Si3N4）、碳化钽（TaC）和钛（Ti）颗粒增强的铝合金（AA）7075。对这些复合材料在室温和高温下的拉伸和蠕变研究进行了分析，以调节其破坏应变和极限抗拉强度（UTS）。所获得的数据推断，这些陶瓷增强材料的添加自然地增强了机械性能和蠕变性能。与非合金铝合金相比，在120°C下，由于伸长率导致的强度高达111.41 N/mm2。载荷试验分析表明，TaC和Ti组合的增强wt%的增加导致变形破坏阻力的增加，并且该复合材料能够在120°C下承受500 kg的载荷。蠕变试验的结果表明，当应变值为0.02wt%时，材料承受超过30000秒的较高循环时间的能力。增强材料为0.5%的TaC、6%的Si3N4和1%的Ti。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Manufacturing Materials and Mechanical Engineering ENGINEERING, MANUFACTURING-

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2.70

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