Influence of Si content and heat treatment on microstructure of Al-Fe-Si alloys 被引量：1

Influence of Si content and heat treatment on microstructure of Al-Fe-Si alloys

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摘要 The effect of Si addition and heat treatment on the Al-5wt.%Fe al oy has been investigated by OM, SEM-EDS and XRD. The results show that the Si plays a significant role in refining the primary Al3Fe phase. It was found that the addition of 3.0wt.% Si made the al oy present the finest and wel -distributed primary Al3Fe phase, but the Al3Fe phase almost disappeared when 5wt.% Si was added. With further increase in the Si content, some Fe-rich phases appeared in the inter-grains and coarsened. In addition, the heat treatments exert a significant impact on the microstructural evolution of the Al-5wt.%Fe-5wt.%Si al oy. After heat treatment for 28 hours at 590 oC, the coarse platelet or blocky Fe-rich phase in Al-5wt.%Fe-5wt.%Si al oys was granulated; the phase transformation from metastable platelet Al3FeSi and blocky Al8Fe2Si to stable Al5FeSi had occurred. With the extension of heat treatment, the Si phase coarsened gradual y. The effect of Si addition and heat treatment on the Al-5wt.%Fe alloy has been investigated by OM, SEM-EDS and XRD. The results show that the Si plays a significant role in refining the primary Al3 Fe phase. It was found that the addition of 3.0wt.% Si made the alloy present the finest and well-distributed primary Al3 Fe phase, but the Al3 Fe phase almost disappeared when 5wt.% Si was added. With further increase in the Si content, some Fe-rich phases appeared in the inter-grains and coarsened. In addition, the heat treatments exert a significant impact on the microstructural evolution of the Al-5wt.%Fe-5wt.%Si alloy. After heat treatment for 28 hours at 590 oC, the coarse platelet or blocky Fe-rich phase in Al-5wt.%Fe-5wt.%Si alloys was granulated; the phase transformation from metastable platelet Al3 FeSi and blocky Al8Fe2 Si to stable Al5 FeSi had occurred. With the extension of heat treatment, the Si phase coarsened gradually.

作者 Zhao Yuhua Wang Xiubin Liu Yulin Wang Chao

机构地区 School of Materials Science and Engineering

出处《China Foundry》 SCIE CAS 2014年第5期418-422,共5页 中国铸造（英文版）

基金 supported financially by the Strategic Priority Research Program CAS under Grant No.XDA03010304 the National Natural Science Foundation of China under Grant No.91226204 the Youth Innovation Promotion Association CAS

关键词 Al-Fe alloy Fe-rich primary phase SILICON heat treatment

分类号 TG146.21 [一般工业技术—材料科学与工程]

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