Influence of NbC addition in aluminium alloy A380 on microstructure at semi-solid processing temperature

B. Arendarchuck, L. Lourençato, Alexia Haagen, H. Fals
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Abstract

Semi-solid processing is a promising technique used to fabricate parts, minimize manufacturing steps post preparation, and reduce casting defects. The globular structure is the key in this process, a characteristic achieved with the partial remelting of material to temperatures between solidus and liquids. In this sense, the aim of this research is to evaluate the microstructure quality of the aluminium matrix composite (AMC) reinforced with NbC, after semi-solid treatment. Micron-sized NbC powder with 0 wt. %, 5 wt. %, 10 wt. %, and 15 wt. % was employed as reinforcement, to fabricate a composite through the stir casting method. Furthermore, was used an Al-5Ti-1B alloy grain refinement. Globularization heat treatment at 562 °C, with a holding time of the 90s, was realized. An optical microscope under conventional and polarized light and a scanning electron microscope (SEM) allows the microstructure analyses. The dendritic cell size (DCS), grain size (GS), shape factor (SF), and rheo quality index (RQI) were used to analyse the morphology and microstructure. The results show a general reduction of GS and DCS parameters with a higher amount of NbC. The AMC with NbC shows more globular microstructure when compared with non-reinforced alloy.
添加NbC对A380铝合金半固态加工温度下组织的影响
半固态加工技术是一种很有前途的技术,用于制造零件,减少制备后的制造步骤,减少铸件缺陷。球状结构是这一过程的关键,这一特性是通过将材料部分重熔到固体和液体之间的温度而实现的。因此,本研究的目的是评价半固态处理后NbC增强铝基复合材料(AMC)的显微组织质量。采用0 wt. %、5 wt. %、10 wt. %和15 wt. %的微米级NbC粉末作为增强剂,通过搅拌铸造法制备复合材料。进一步,采用了Al-5Ti-1B合金细化晶粒。在562℃下进行了球化热处理,保温时间为90℃。光学显微镜下的常规和偏振光和扫描电子显微镜(SEM)允许微观结构分析。采用树突状细胞尺寸(DCS)、晶粒尺寸(GS)、形状因子(SF)和流变质量指数(RQI)分析其形貌和微观结构。结果表明,随着NbC用量的增加,GS和DCS参数普遍降低。与非增强合金相比,含NbC的AMC表现出更多的球状组织。
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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