Effect of suction casting process on microstructure and mechanical properties of Au80Sn20 alloy flake

Gold80-tin20 (Au80Sn20) eutectic alloy with coarse primary ζ′-phase and irregular eutectic structure is intrinsically brittle. In this study, various processes were applied to prepare Au80Sn20 alloy. The effects of suction casting processing parameters on the solidification structure, indentation ha...

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Bibliographic Details
Published in:Materials research express 2019-04, Vol.6 (7), p.76561
Main Authors: Zeng, Xiyang, Ma, Yunzhu, Liu, Wensheng, Huang, Yufeng, Tang, Siwei, Chen, Baishan
Format: Article
Language:English
Subjects:
Au80Sn20 eutectic alloy
hardness
lamellar
suction casting
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Summary:Gold80-tin20 (Au80Sn20) eutectic alloy with coarse primary ζ′-phase and irregular eutectic structure is intrinsically brittle. In this study, various processes were applied to prepare Au80Sn20 alloy. The effects of suction casting processing parameters on the solidification structure, indentation hardness, and modulus were investigated, and the underlying mechanism was discussed. Results showed that the conventionally cast microstructure was made up of coarse dendritic ζ′-Au5Sn (primary phase) and (ζ′-Au5Sn and δ-AuSn) eutectic structure; however, in rapid solidification process size of the primary phase decreased from 200 m to approximately 10 m. Moreover, when the current of arc-melting was increased, size of the primary phase continuously shrunk to approximately 3 m, leading to the change in the morphology from fine dendrites to dots-like. Moreover, volume of the primary phase was correspondingly reduced as the lamellar spacing decreased from 500 50 nm to 150 10 nm. The two-phase orientation relationship of lamellar eutectic was ( 11 2 ¯ 0 ) A u 5 S n ( 01 1 ¯ 0 ) A u S n . Besides, hardness of the Au80Sn20 eutectic alloy increased from 1.67 to 2.17 GPa, and the modulus increased from 70.67 to 83.17 GPa with increasing suction casting current.
ISSN:2053-1591
2053-1591
DOI:10.1088/2053-1591/ab15e7