无机吸附对纳米氮化硅- AA6061合金纳米复合材料热响应及磨损性能的影响

F. M. Anjalin, A. Krishnan, G. Arunkumar, K. Raju, M. Vivekanandan, S. Somasundaram, T. Thirugnanasambandham, Elangomathavan Ramaraj
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引用次数: 1

摘要

无机基陶瓷增强材料具有优异的热性能,并且重量轻,以铝合金为基体开发用于汽车应用。采用搅拌铸造法制备了含0 wt%、4 wt%、8 wt%和12 wt%氮化硅纳米颗粒(50 nm)的AA6061合金纳米复合材料。研究了热吸附对氮化硅(纳米)添加量、密度、热响应、硬度和AA6061基纳米复合材料磨损性能的影响。基于混合规律,对纳米复合材料的密度进行了评价。利用差热分析和热重分析技术对纳米复合材料进行热响应分析。差示扫描量热计用于在400°C和700°C之间寻找热流。采用ASTM E384和ASTM G99-05标准研究了AA6061纳米复合材料的显微维氏硬度和磨损特性。无机纳米氮化硅颗粒(12 wt%)在AA6061合金中的吸附,随着温度升高,质量损失减小。差热分析表明,纳米复合材料在高温(528℃)下发生固液相转变。
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Inorganic Adsorption on Thermal Response and Wear Properties of Nanosilicon Nitride-Developed AA6061 Alloy Nanocomposite
Inorganic-based ceramic reinforcements are promising superior thermal behaviour and are lightweight and developed with aluminium alloy matrix for automobile applications. The AA6061 alloy nanocomposite containing 0 wt%, 4 wt%, 8 wt%, and 12 wt% of silicon nitride nanoparticles(50 nm) was synthesized by stir cast. The influences of thermal adsorption on silicon nitride (nano) additions, density, thermal response, hardness, and wear characteristics of AA6061 matrix nanocomposites are studied. Based on the rule of mixture, the density of nanocomposites is evaluated. The differential thermal and thermogravimetric analysis techniques are used to find the thermal response nanocomposite. The differential scanning calorimeter is used to find the heat flow between 400°C and 700°C. The micro Vickers hardness and wear characteristics of AA6061 nanocomposite were experimentally investigated by ASTM E384 and ASTM G99-05 standards. The adsorption of inorganic nanosilicon nitride particles (12 wt%) in AA6061 alloy showed a decreased mass loss with increased temperatures 0° to 700°C. The differential thermal analysis of nanocomposite reveals the transformation of solid-to-liquid phase under high temperature (528°C).
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