Efects of diferent casting mould cooling rates on microstructure and properties of sand-cast Al-7.5Si-4Cu alloy 被引量：1

Efects of diferent casting mould cooling rates on microstructure and properties of sand-cast Al-7.5Si-4Cu alloy

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摘要 In this work, Al-7.5Si-4Cu alloy melt modified by Al-10Sr, RE and Al-5Ti-B master alloys was poured into multi-step moulds made from three moulding sands, including quartz, alumina and chromite, to investigate comparatively the effects of different cooling rates of the casting mould on the alloy's microstructures and mechanical properties. The results show that with an increase in wall thickness, the cooling rate decreases, the dendrite arm spacing(DAS) increases significantly and the mechanical properties decrease steadily. The elongation is more sensitive to the cooling rate than the tensile strength. No obvious trend of the effect of wall thickness on hardness of the alloy was found. When the cooling rate is at its greatest, the microstructures and mechanical properties are the best when using chromite sand. The improvement of the properties is mainly attributed to the decrease of the DAS, the grain refinement and the metamorphic effect. Each of the three has a strong impact on the microstructures. Furthermore, a series of fitting models was established based on the data of the DAS to predict the mechanical properties of the multivariate sand-cast Al-7.5Si-4Cu alloy, In this work, AI-7.5Si-4Cu alloy melt modified by AI-10Sr, RE and AI-5-13-B master alloys was poured into multi-step moulds made from three moulding sands, including quartz, alumina and chromite, to investigate comparatively the effects of different cooling rates of the casting mould on the alloy＇s microstructures and mechanical properties. The results show that with an increase in wall thickness, the cooling rate decreases, the dendrite arm spacing （DAS） increases significantly and the mechanical properties decrease steadily. The elongation is more sensitive to the cooling rate than the tensile strength. No obvious trend of the effect of wall thickness on hardness of the alloy was found. When the cooling rate is at its greatest, the microstructures and mechanical properties are the best when using chromite sand. The improvement of the properties is mainly attributed to the decrease of the DAS, the grain refinement and the metamorphic effect. Each of the three has a strong impact on the microstructures. Furthermore, a series of fitting models was established based on the data of the DAS to predict the mechanical properties of the multivariate sand-cast AI-7.5Si-4Cu alloy,

作者 Liu Guanglei Si Naichao Sun Shaochun Wu Qinfang

机构地区 School of Materials Science and Engineering Suzhou Mingzhi Technology Ltd.

出处《China Foundry》 SCIE CAS 2013年第6期396-400,共5页 中国铸造（英文版）

基金 financially supported by the Technology Innovation Fund Project of High-tech Small and Medium Enterprises,Ministry of Science and Technology of China(No:09C26279200863) the Special Fund Project on Science and Technology Achievement Transformation of Jiangsu Province(No:BA201184)

关键词 Al-7.5Si-4Cu alloy cooling rate properties and microstructure fitting analysis AI-7.5Si-4Cu alloy cooling rate properties and microstructure fitting analysis

分类号 TG246.21 [金属学及工艺—铸造]

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