Primary dendrite growth of Ni3Sn intermetallic compound during rapid solidification of undercooled Ni-Sn-Ge alloy

Primary dendrite growth of Ni3Sn intermetallic compound during rapid solidification of undercooled Ni-Sn-Ge alloy

Liquid Ni-31.7%Sn-2.5%Ge alloy was highly undercooled by up to 238 K (0.17TL) with glass fluxing and drop tube techniques. The dendritic growth velocity of primary Ni3Sn compound shows a power-law relation to undercooling and achieves a maximum velocity of 380 mm/s. The addition of Ge reduces its gr...

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Veröffentlicht in:Chinese science bulletin 2012-03, Vol.57 (9), p.1073-1077
Hauptverfasser: Wang, WeiLi, Qin, HaiYan, Xia, ZhenChao, Wei, BingBo
Format: Artikel
Sprache:eng
Schlagworte:
alloys
Chemistry/Food Science
Dendritic structure
Earth Sciences
Engineering
Germanium
glass
Humanities and Social Sciences
Intermetallic compounds
Intermetallics
Life Sciences
multidisciplinary
Nickel base alloys
Physics
Rapid solidification
Science
Science (multidisciplinary)
solidification
solutes
Supercooling
Undercooling
凝固过程
合金相
幂律关系
最大速度
枝晶生长
深过冷
生长速度
金属间化合物
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Zusammenfassung:Liquid Ni-31.7%Sn-2.5%Ge alloy was highly undercooled by up to 238 K (0.17TL) with glass fluxing and drop tube techniques. The dendritic growth velocity of primary Ni3Sn compound shows a power-law relation to undercooling and achieves a maximum velocity of 380 mm/s. The addition of Ge reduces its growth velocity as compared with the binary Ni75Sn25 alloy. A structural transition from coarse dendrites into equiaxed grains occurs once undercooling exceeds a critical value of about 125 K, which is accompanied by both grain refinement and solute trapping. The Ni3Sn intermetailic compound behaves like a normal solid solu- tion phase showing nonfaceted growth during rapid solidification.
ISSN:1001-6538
1861-9541
DOI:10.1007/s11434-012-5006-5