Estelle Kretz scite author profile

Two ternary alloys, Ni-25Cr-0.25C and Ni-25Cr-0.50C (wt.%) and three versions containing also titanium (1 and 2 wt.%) were cast and submitted to oxidation in dry synthetic air at 1200°C to observe the effects of titanium on the behaviors of the nickel-based alloys belonging to this category. The mass gains are wholly parabolic in all cases and the values of the parabolic and chromia-volatilization constants are typical of a chromia-forming behavior. The mass gains of the Ti-containing alloys are faster than for the Ni-Cr-C alloys, and these kinetic differences are consistent with the differences in chromia thickness and in Cr-impoverishment of the subsurface. In addition the presence of Ti led to the development of thin a TiO 2 outer scale isolating chromia from hot air, but without benefit for the protection of Cr 2 O 3 against volatilization. The obtained results also suggest that Ti may perturb the Cr diffusion in volume but also delay the oxide spallation during cooling.

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Oxidation and creep properties at 1200 °C of cast quaternary Ni-Cr-C-Ti alloys

Berthod

Kretz

Allègre

et al. 2017

Materials Science and Engineering: A

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Three nickel-based alloys rich in chromium (25wt.%) and containing carbon and titanium in quantities chosen to promote the appearance of titanium carbides (0.25C-1Ti, 0.50C-1Ti and 0.50C-2Ti, in wt.%) were elaborated by casting in inert atmosphere. Their microstructures and their thermodynamic, chemical and mechanical behaviours at high temperature were studied. The as-cast microstructures of the obtained alloys are composed of a dendritic nickel matrix and of interdendritic carbides. These carbides are not TiC as expected, but Cr 7 C 3 , the whole titanium remaining in solid solution in the matrix. The applied {46h, 1200°C}exposure in air led to the development of an external duplex oxide scale constituted of a thick inner chromia scale and a thin outer rutile scale. These oxide layers resisted spallation more than the ones of Ti-free ternary reference alloys in similar conditions. The bulk's chromium carbides became rounder and coarsened, with as result a decrease in room temperature hardness. The {5 or 20 MPa, 1200°C}-3 points flexural creep tests showed a rather good behaviour, regarding the high test temperature. It is concluded that titanium seems hardening these bases of alloys at low and high temperatures. However the effects on the oxidation behaviour may be deleterious for the oxidation rate and subsurface Cr-impoverishment. In contrast Ti appears as beneficial for the resistances against spallation and possibly chromia volatilization. This needs to be further investigated.

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Estelle Kretz

Experimental and thermodynamic study of the role of titanium in the microstructural and thermal properties of cast Ni–Cr–C–Ti alloys

Corrosion Behavior in a Neutral Artificial Saliva of Several Binary Co-Cr Alloys with Various Chromium Contents

Influence of Titanium on the High Temperature Oxidation and Chromia Volatilization of Ternary Ni–Cr–C Alloys

Oxidation and creep properties at 1200 °C of cast quaternary Ni-Cr-C-Ti alloys

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