Steady and unsteady state peritectic solidification
M. A. P. Castanho, P. R. Goulart, C. Brito, J. E. Spinelli, N. Cheung, A. Garcia
ARTIGO
Inglês
In the present study, Pb–Bi as a model of alloys from peritectic systems was directionally solidified under transient heat flow conditions, which is the class of heat flow encompassing the majority of industrial solidification processes. Some experiments were also carried out in a vertical tube...
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In the present study, Pb–Bi as a model of alloys from peritectic systems was directionally solidified under transient heat flow conditions, which is the class of heat flow encompassing the majority of industrial solidification processes. Some experiments were also carried out in a vertical tube furnace under cooling rates closer to equilibrium during solidification in order to broaden the range of solidification parameters. Thermal parameters such as the tip growth rate (VL) and the cooling rate were experimentally determined and correlated with the primary (λ1) and secondary (λ2) dendrite arm spacings by experimental growth laws. It is shown that the proposed growth laws are able to encompass also the growth of dendritic branches during steady state growth from the melt
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FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP
2012/08494-0
CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQ
Fechado
Steady and unsteady state peritectic solidification
M. A. P. Castanho, P. R. Goulart, C. Brito, J. E. Spinelli, N. Cheung, A. Garcia
Steady and unsteady state peritectic solidification
M. A. P. Castanho, P. R. Goulart, C. Brito, J. E. Spinelli, N. Cheung, A. Garcia
Fontes
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Materials science and technology Vol. 31, no. 1 (Jan., 2015), p. 105-114 |