Production of semi-solid feedstock of A356 alloy and A356-5TiB2 in-situ composite by cooling slope casting

Cooling Slope casting process has gained significant importance for manufacturing of semi-solid feedstock Al alloys and composites which find applications in automotive and aerospace industries. The primary objective of this research is to generate the semi-solid feedstock suitable for thixoforming...

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Bibliographic Details
Published in:IOP conference series. Materials Science and Engineering 2015-02, Vol.75 (1)
Main Authors: S Deepak Kumar, Acharya, Mihira, Mandal, A, Chakraborty, M
Format: Article
Language:English
Subjects:
Aerospace industry
Alloys
Aluminum base alloys
Casting
Cooling
Grain boundaries
Grain size
Morphology
Particulate composites
Process parameters
Raw materials
Semisolids
Thixoforming
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Summary:Cooling Slope casting process has gained significant importance for manufacturing of semi-solid feedstock Al alloys and composites which find applications in automotive and aerospace industries. The primary objective of this research is to generate the semi-solid feedstock suitable for thixoforming process. The current work discusses the phenomena involved in the evolution of microstructure of the semi-solid feed stock by Cooling Slope casting process and the effect of various parameters. The process parameters like the angle and length of inclined plate affect the size and morphology of α-Al phase. The Cooling slope process resulted in the formation of fine grain size of about 38 μm of α-Al phase, compared to that of 98 μm processed conventionally. Further, the pouring temperature played a crucial role in the generation of semi-solid microstructures in case of both the alloy and composites. Moreover, fine TiB2 particles of size 0.2-0.5 μm are uniformly distributed in the almost spherical α-Al grains and at the grain boundaries in the composite feed stock. Cooling slope casting route is a suitable and economical route for semi-solid slurry generation by effectively varying the process parameters.
ISSN:1757-8981
1757-899X
DOI:10.1088/1757-899X/75/1/012026