NUMERICAL SIMULATION OF Al-Si/SiC PARTICLE SYSTEM TWO DIMENSION SOLIDIFICATION PROCESSING ON DIFFERENT COOLING CONDITIONS

ZHANG Mingyu; CHEN Yiliang; DU Zhuolin; HUANG Qing

Volume 20 Issue 5

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Acta Materiae Compositae Sinica > 2003 > 20(5): 114-122.

ZHANG Mingyu, CHEN Yiliang, DU Zhuolin, et al. NUMERICAL SIMULATION OF Al-Si/SiC PARTICLE SYSTEM TWO DIMENSION SOLIDIFICATION PROCESSING ON DIFFERENT COOLING CONDITIONS[J]. Acta Materiae Compositae Sinica, 2003, 20(5): 114-122.

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NUMERICAL SIMULATION OF Al-Si/SiC PARTICLE SYSTEM TWO DIMENSION SOLIDIFICATION PROCESSING ON DIFFERENT COOLING CONDITIONS

Thermal Science and Energy Engineering Department, University of Science and Technology of China, Hefei 230026,China

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Received Date: June 17, 2002
Revised Date: December 01, 2002

Abstract

Abstract

A multiphase model has been developed and applied to two dimension solidification processing of Al-7 wet pct Si/SiC particles Fgm on different cooling conditions. Solidification processings of no particle, small particle and large particle by cooling on the top, the bottom, side face and four sides are researched. It is approved that there is negative macrosegregation on the field solidified first and positive macrosegregation on the field solidified later. There is macrosegregation of pattern A by cooling on the top and bottom and macrosegregation of pattern V by cooling on the side face and four sides. Scheil equation is approved. The creation of eutectic is affected by species macrosegregation, and the accumulation of large particles restrains the creation of eutectic.
- functionally graded material,
- solidification,
- cooling condition,
- numerical simulation

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NUMERICAL SIMULATION OF Al-Si/SiC PARTICLE SYSTEM TWO DIMENSION SOLIDIFICATION PROCESSING ON DIFFERENT COOLING CONDITIONS

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