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Silicon-boronising of Nimonic 90 superalloy

Abstract

In the present work, Nimonic 90 alloy surface has been modified to increase its abrasive wear resistance by using a self-protective silicon-boronising paste agent. A multilayer consisting of intermetallic compounds, or a composite layer containing different intermetallic compounds was formed at the surface. In the former case, the multilayer coating consisted of an outer layer of (Ni,Co)2Si, an intermediate layer of (Cr,Co)2B, and an inner layer of Ti-rich nickel silicide. The total thickness of these layers was 40-90 m, depending on the temperature and the holding time. In the latter case, the composite layer contained lathlike (Ni,Co)5Si2, ‘flower patterns’ of CrB and modified nickel alloy matrix. The composite layers were about 500 and 800 m thick after 2hrs and 8hrs treatment, respectively. The microhardness of the coatings was about 3 times higher than that of the Nimonic 90 substrate. The abrasive wear resistance of Nimonic 90 was raised by 2.5-5 times, depending on the employed surface treatment parameters.

Category

Academic article

Language

English

Author(s)

  • Dechun Lou
  • Odd Magne Akselsen
  • Jan Ketil Solberg
  • Morten Ingar Onsøien
  • John Berget
  • Nina Dahl

Affiliation

  • SINTEF
  • Norwegian University of Science and Technology

Year

2006

Published in

Surface & Coatings Technology

ISSN

0257-8972

Volume

200

Page(s)

3582 - 3589

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