Synthesis and oxidation behavior of platinum-enriched γ + γ′ bond coatings on Ni-based superalloys

Y. Zhang, D. A. Ballard, J. P. Stacy, B. A. Pint, J. A. Haynes

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23 Scopus citations

Abstract

Simple Pt-enriched γ + γ′ coatings were synthesized on René 142 and René N5 Ni-based superalloys by electroplating a thin layer of Pt followed by a diffusion treatment at 1150-1175 °C. The Al content in the resulting γ + γ′ coating was in the range of 16-19 at.% on superalloys with 13-14 at.% Al. After oxidation testing, alumina scale adherence to these γ + γ′ coatings was not as uniform as to the β-(Ni,Pt)Al coatings on the same superalloy substrates. To better understand the effect of Al, Pt and Hf concentrations on coating oxidation resistance, a number of Ni-Pt-Al cast alloys with γ + γ′ or β phase were cyclically oxidized at 1100 °C. The Hf-containing γ + γ′ alloys with 22 at.% Al and 10-30 at.% Pt exhibited similar oxidation resistance to the β alloys with 50 at.% Al. An initial effort was made to increase the Al content in the Pt-enriched γ + γ′ coatings by introducing a short-term aluminizing process via chemical vapor deposition or pack cementation. However, too much Al was deposited, leading to the formation of β or martensitic phase on the coating surface.

Original languageEnglish
Pages (from-to)3857-3861
Number of pages5
JournalSurface and Coatings Technology
Volume201
Issue number7 SPEC. ISS.
DOIs
StatePublished - Dec 20 2006

Funding

The authors acknowledge K.M. Cooley, J.L. Moser, and L.R. Walker at Oak Ridge National Laboratory (ORNL) and S.J. Geng at Tennessee Technological University (TTU) for assisting with the experimental work, and I.G. Wright and P.F. Tortorelli at ORNL for reviewing the manuscript. This research is sponsored by the U.S. Department of Energy, Fossil Energy Advanced Materials Research Program, under contract DE-AC05-00OR22725 with UT-Battelle LLC and subcontract 4000032193 with TTU. Some of this material is based upon recent work supported by the National Science Foundation-GOALI Program under Grant No. 0504566.

FundersFunder number
Fossil Energy Advanced Materials Research ProgramDE-AC05-00OR22725
National Science Foundation-GOALI Program0504566
U.S. Department of Energy
UT-Battelle4000032193

    Keywords

    • Aluminide
    • Bond coat
    • Oxidation resistance
    • Pt-enriched coating
    • γ+γ' two-phase coating

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