INFLUENCE OF MODIFICATION ON MICROSTRUCTURE DEGRADATION OF AlSi12 ALLOY EXPOSED TO THE CORROSION ENVIRONMENT

Revue De Metallurgie-cahiers D Informations Techniques Pub Date : 2020-01-01 DOI:10.37904/metal.2020.3596

Franjo Kozina, Zdenka Zovko Brodarac

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Abstract

The corrosion resistance of aluminum-silicon (Al-Si) foundry alloys is a result of microstructure development influenced by melt treatment and solidification. As a part of the main eutectic (αAl + βSi), βSi particles are cathodic with respect to the αAl matrix enabling micro-galvanic couple formation and localized corrosion. Despite its high polarization and low current density, increase in the eutectic (αAl + βSi) will contribute to the microstructure degradation of an alloy in corrosive environment. The research was performed in order to estimate the influence of eutectic βSi particles size on the microstructure degradation of AlSi12 alloy with mixed morphology of eutectic (αAl + βSi). The results of light microscopy indicated preferred initiation and progress of cavities involving modified eutectic (αAl + βSi) with eutectic βSi particles of smaller average particle size. The unmodified eutectic (αAl + βSi) with lamellar morphology and dendrites of primary αAl phase were not visually affected by degradation. The average cavity size and pH value of the solution increase with the increasing exposure time, while microstructure degradation rate decreases.

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改性对腐蚀环境下AlSi12合金组织退化的影响

铝硅铸造合金的耐蚀性是受熔体处理和凝固影响的组织发展的结果。作为主共晶(αAl + βSi)的一部分，βSi颗粒相对于αAl基体呈阴极，有利于微电偶的形成和局部腐蚀。尽管合金具有高极化和低电流密度，但共晶(αAl + βSi)的增加会导致合金在腐蚀环境中的组织退化。研究共晶βSi颗粒尺寸对混合共晶(αAl + βSi) AlSi12合金显微组织退化的影响。光镜观察结果表明，共晶βSi颗粒平均粒径较小，改性共晶αAl + βSi有利于空腔的萌生和发展。未改性共晶(αAl + βSi)的片层形貌和初生αAl相枝晶不受降解的明显影响。随着暴露时间的延长，溶液的平均空腔尺寸和pH值增加，微观结构降解速率降低。

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

Revue De Metallurgie-cahiers D Informations Techniques 工程技术-冶金工程

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0.00%

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审稿时长

24 months