Role of Titanium, Carbon, Boron, and Zirconium in Carbide and Porosity Formation during Equiaxed Solidification of Nickel-Based Superalloys

Cortes, Eduardo; Bedolla-Jacuinde, Arnoldo; Rainforth, Mark; Mejia, Ignacio; Ruiz, Alberto; Ortiz, Noemi; Zuno, Jorge

doi:10.1007/S11665-019-04179-9

Title: Role of Titanium, Carbon, Boron, and Zirconium in Carbide and Porosity Formation during Equiaxed Solidification of Nickel-Based Superalloys

Journal Article · Mon Jul 15 00:00:00 EDT 2019 · Journal of Materials Engineering and Performance

DOI:https://doi.org/10.1007/S11665-019-04179-9· OSTI ID:22970650

Cortes, Eduardo; Bedolla-Jacuinde, Arnoldo ^[1]; Rainforth, Mark ^[2]; Mejia, Ignacio; Ruiz, Alberto; Ortiz, Noemi ^[1]; Zuno, Jorge ^[3]

Universidad Michoacana de San Nicolás de Hidalgo (Mexico)
The University of Sheffield (United Kingdom)
Universidad Autónoma del Estado de Hidalgo (Mexico)

This work analyses the effect of Ti in the MC carbide formation and also in the γ/γ´ eutectic promotion in two nickel-based alloys melted under vacuum conditions and solidified into ceramic molds. The role of boron, carbon and zirconium on the porosity level after solidification of both alloys was also investigated; since the alloys were vacuum melted, it is assumed that the observed porosity is due to micro-shrinkage. The chemical compositions for two alloys were: 20.2Cr-13.7Co-4.78Mo-1.19Al-0.69Ti-0.08C-2.34Fe for Alloy 1, and 20.5Cr-15.6Co5.03Mo-1.57Al-3.42Ti-0.15C-1.64Fe-0.076Zr-0.01%B for Alloy 2. Results showed a higher volume fraction of MC carbides and the γ/γ´ eutectic for the Alloy 2 with higher titanium content since this element is a carbide and γ/γ´ eutectic promoter. The porosity level in the Alloy 2, with higher amounts of carbon, boron and zirconium was considerably lower than that for the Alloy 1. These results are discussed in terms of different phenomena caused by the segregating effects of boron, carbon and zirconium towards the interdendritic regions and the formation of zirconium carbides that produce an expansion in volume when they are formed at the end of the solidification process.

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OSTI ID:: 22970650

Journal Information:: Journal of Materials Engineering and Performance, Vol. 28, Issue 7; Conference: 73. World Foundry Congress, Krakow (Poland), 23-27 Sep 2018; Other Information: Copyright (c) 2019 ASM International; Country of input: International Atomic Energy Agency (IAEA); ISSN 1059-9495

Country of Publication:: United States

Language:: English

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Related Subjects

36 MATERIALS SCIENCE
BORON
CARBON
CHEMICAL COMPOSITION
EUTECTICS
HEAT RESISTING ALLOYS
NICKEL BASE ALLOYS
POROSITY
SOLIDIFICATION
TITANIUM
ZIRCONIUM CARBIDES

Title: Role of Titanium, Carbon, Boron, and Zirconium in Carbide and Porosity Formation during Equiaxed Solidification of Nickel-Based Superalloys

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