Effect of permanent magnet stirring on solidification of Sn-Pb alloy

An experimental investigation has been conducted with respect to the influence of permanent magnet stirring (PMS) under different rotation speeds (ω=60, 120 and 150r/min) and center magnetic flux densities (B=757 and 1080Gs) on the solidification of Sn-20wt%Pb alloy. The magnetic field was generated...

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Bibliographic Details
Published in:Materials & design 2016-10, Vol.108, p.364-373
Main Authors: Zeng, Jie, Chen, Weiqing, Yan, Wei, Yang, Yindong, McLean, Alex
Format: Article
Language:English
Subjects:
Density
Liquids
Magnetic flux
Magnetic flux density
Permanent magnet stirring
Permanent magnets
Rotation speed
Sn-Pb alloy
Solidification
Stirring
Tensile properties
Tin base alloys
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Summary:An experimental investigation has been conducted with respect to the influence of permanent magnet stirring (PMS) under different rotation speeds (ω=60, 120 and 150r/min) and center magnetic flux densities (B=757 and 1080Gs) on the solidification of Sn-20wt%Pb alloy. The magnetic field was generated by a pair of arc-shaped NdFeB permanent magnets with a gap that could be adjusted to obtain the required magnetic flux density. The effects of different values of ω and B were investigated by analyzing the driven flow intensity, surface and internal quality, macrostructure, microstructure and tensile properties. It was observed that with increasing ω and B there was significant improvement in the flow intensity of the liquid, surface pinholes, grain refinement and tensile properties. The results obtained have important implications for industrial metal casting processes. [Display omitted] •Magnetic driven flow intensity of melt was evaluated by observing its surface trajectories.•Surface pinholes and internal cavities were decreased by the permanent magnet stirring.•Grain refinement was apparent with the increasing of rotation speed and magnetic flux density.•Permanent magnet stirring leads to a significant increase in the tensile properties of Sn-Pb alloy.
ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2016.07.006