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Primary interphase dendritic growth via unsteady-state horizontal solidification of an Al-Cu-Nb alloy

Hoffmann EC;
Feio BYG;
Dillon TMO;
Azevedo HAM;
Rocha FS;
Rocha OFL

Evaldo da Cruz Hoffmann

Bruno Yuji Goto Feio

Thiago Maués Oliveira Dillon

Hugo André Magalhães de Azevedo

Fernando Sousa da Rocha

Otávio Fernandes Lima da Rocha


Keywords

Unsteady-state horizontal solidification
Thermal parameters
Primary interphase dendritic growth
Al-Cu-Nb alloys

Abstract

Aluminum and its alloys, compared to steel, have a higher strength/weight ratio, good electrical and thermal conductivity, and better corrosion resistance. Among the various aluminum alloys registered today, we can highlight those that make use of copper, the third most consumed metal in the world. In this context, niobium stands out, which plays an important role in the production of metallic alloys due to its high melting point, resistance to acid attack, and superconductivity at high temperatures. In recent decades, several studies have been carried out to establish the relationship between the thermal solidification parameters and typical as-cast structure in macrostructural and microstructural scales in aluminum alloys, aiming to optimize the properties of these alloys. In this sense, the main objective of this work was to investigate the effects of heat flow parameters, such as growth and cooling rates (VL and TR), on primary interphase dendritic growth (1α) in equiaxed dendrites in Al-3Cu-0.5Nb (wt.%) alloy (wt.%), which was horizontally solidified in a recent study. The 1α variation with  VL and TR has been characterized by mathematical equations given by the general expressions 1α=Constant. (VL)-1.1 and 1α=Constant.(TR)-0.55, which represents the interphase dendritic growth laws, where the exponents -0.55 and -1.1 are in absolute agreement with the primary spacing growth laws in columnar dendrites.

 

DOI:https://doi.org/10.56238/alookdevelopv1-173


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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Copyright (c) 2023 Evaldo da Cruz Hoffmann, Bruno Yuji Goto Feio, Thiago Maués Oliveira Dillon, Hugo André Magalhães de Azevedo, Fernando Sousa da Rocha, Otávio Fernandes Lima da Rocha

Author(s)

  • Evaldo da Cruz Hoffmann
  • Bruno Yuji Goto Feio
  • Thiago Maués Oliveira Dillon
  • Hugo André Magalhães de Azevedo
  • Fernando Sousa da Rocha
  • Otávio Fernandes Lima da Rocha