Effect of Solidification Condition and Alloy Composition on Formation and Shape of Pores in Directionally Solidified Ni-Al Alloys

The effect of the solidification condition and alloy composition on the formation of cylindrical pores oriented along the solidification direction was investigated in Ni (100− x ) Al x ( x  = 20, 25, 30, and 50 at. pct) alloys that were solidified unidirectionally in hydrogen atmosphere. It was reve...

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Bibliographic Details
Published inMetallurgical and materials transactions. A, Physical metallurgy and materials science Vol. 44; no. 9; pp. 4257 - 4265
Main Authors Ide, Takuya, Tane, Masakazu, Nakajima, Hideo
Format Journal Article
LanguageEnglish
Published Boston Springer US 01.09.2013
Springer
Springer Nature B.V
Subjects
Alloy solidification
Aluminum alloys
Applied sciences
Characterization and Evaluation of Materials
Chemistry and Materials Science
Exact sciences and technology
Materials Science
Metallic Materials
Metallurgy
Metals. Metallurgy
Nanotechnology
Phase transitions
Structural Materials
Surfaces and Interfaces
Thin Films
Ni3Al
Pore Morphology
Mushy Zone
Solidification Direction
Solidification Front
Directional solidification
Microstructure
Aluminium base alloys
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Summary:The effect of the solidification condition and alloy composition on the formation of cylindrical pores oriented along the solidification direction was investigated in Ni (100− x ) Al x ( x  = 20, 25, 30, and 50 at. pct) alloys that were solidified unidirectionally in hydrogen atmosphere. It was revealed that the uniformity of the pores strongly correlates with the width of the mushy zone ( i.e. , the region of solid–liquid coexistence) in the solidification front. In alloys with x  = 25 and 50 ( i.e. , NiAl and Ni 3 Al intermetallic compounds, respectively), uniform cylindrical pores were formed, reflecting small freezing intervals, which lead to narrow mushy zones. On the other hand, irregular pores were formed in x  = 20 and 30 two-phase alloys comprising Ni solid-solution and Ni 3 Al phases and Ni 3 Al and NiAl phases, respectively, that had large freezing intervals leading to wide mushy zones. This is because the large amount of primary crystals with dendritic structures prevents the growth of directional pores in the mushy zone. For the x  = 20 and 30 alloys, the increase in the temperature gradient of the solidification front, which decreases the mushy zone width, clearly enhances the uniformity of the pores. Consequently, decreasing the mushy zone width results in the growth of uniform cylindrical pores.
ISSN:1073-5623
1543-1940
DOI:10.1007/s11661-013-1790-z