Influence of mechanical vibration on the solidification of a lost foam cast 356 alloy 被引量：7

Influence of mechanical vibration on the solidification of a lost foam cast 356 alloy

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摘要 Mechanical vibration was applied to the solidification of a lost foam cast(LFC) 356 aluminum alloy.Effects of mechanical vibration,with different peak acceleration,on the size and morphology of α-Al phase,and also on the mechanical properties of the castings were studied.Results indicated that α-Al dendrites gradually grow into equiaxed grains as the peak acceleration of vibration is increased.When the peak acceleration is between about 1 to 4 g,α-Al phase distribution is uniform and is refined obviously.α-Al dendrites are reduced and the mechanical properties of the castings are improved significantly when compared to those of the castings that are produced without vibration.However,when the peak acceleration is higher than 4 g,strong vibration will lead to defects formation,such as sand adhesion,while the amount and size of pores will be increased.And due to the turbulent flow that caused by strong vibration,the chance of forming large pores in the matrix has been increased significantly.The increase in defects will result in the deterioration of mechanical properties. Mechanical vibration was applied to the solidification of a lost foam cast （LFC） 356 aluminum alloy. Effects of mechanical vibration, with different peak acceleration, on the size and morphology of α-Al phase, and also on the mechanical properties of the castings were studied. Results indicated that α-Al dendrites gradually grow into equiaxed grains as the peak acceleration of vibration is increased. When the peak acceleration is between about 1 to 4 g, α-Al phase distribution is uniform and is refined obviously, α-Al dendrites are reduced and the mechanical properties of the castings are improved significantly when compared to those of the castings that are produced without vibration. However, when the peak acceleration is higher than 4 g, strong vibration will lead to defects formation, such as sand adhesion, while the amount and size of pores will be increased. And due to the turbulent flow that caused by strong vibration, the chance of forming large pores in the matrix has been increased significantly. The increase in defects will result in the deterioration of mechanical properties.

作者 Zhao Zhong Fan Zitian Dong Xuanpu Tang Bo Pan Di Li Jiqiang

机构地区 State Key Laboratory. of Material Processing and Die ＆ Mould Technology

出处《China Foundry》 SCIE CAS 2010年第1期24-29,共6页 中国铸造（英文版）

基金 supported by the National High Technology Research and Development Program of China (Grant No.2007AA03Z113) The National Natural Science Foundation of China (Grant No.50775085)

关键词 aluminum alloy microstructure mechanical property lost foam casting mechanical vibration

分类号 TG249.6 [金属学及工艺—铸造] TH113.1 [机械工程—机械设计及理论]

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Influence of mechanical vibration on the solidification of a lost foam cast 356 alloy 被引量：7

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