期刊
TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
卷 29, 期 1, 页码 43-50出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/S1003-6326(18)64913-1
关键词
A356 alloy; solidification; interfacial heat transfer coefficient; inverse heat conduction problem; surface characteristics
资金
- National Industry Base Enhanced Program, China [TC160A310-10-01]
- Science and Technology of Guangdong Province, China [2015B090926002, 2013A090100002]
- Key Technology Program of Foshan, China [2016AG100932]
As one of the key boundary conditions during casting solidification process, the interfacial heat transfer coefficient (IHTC) affects the temperature variation and distribution. Based on the improved nonlinear estimation method (NEM), thermal measurements near both bottom and lateral metal-mold interfaces throughout A356 gravity casting process were carried out and applied to solving the inverse heat conduction problem (IHCP). Finite element method (FEM) is employed for modeling transient thermal fields implementing a developed NEM interface program to quantify transient IHTCs. It is found that IHTCs at the lateral interface become stable after the volumetric shrinkage of casting while those of the bottom interface reach the steady period once a surface layer has solidified. The stable value of bottom IHTCs is 750 W/(m(2).degrees C), which is approximately 3 times that at the lateral interface. Further analysis of the interplay between spatial IHTCs and observed surface morphology reveals that spatial heat transfer across casting-mold interfaces is the direct result of different interface evolution during solidification process.
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