Influence of particle temperature and velocity on the microstructure and mechanical behaviour of high velocity oxy-fuel (HVOF)-sprayed nanostructured titania coatings

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DOIResolve DOI: http://doi.org/10.1016/j.jmatprotec.2007.07.024
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TypeArticle
Journal titleJournal of Materials Processing Technology
Volume198
Issue1-3
Pages426435; # of pages: 10
SubjectThermal spray; High velocity oxy-fuel (HVOF); In-flight particle diagnostics; Nanostructured titania (TiO₂); Microstructure; Bond strength
AbstractNanostructured titania feedstock powders were deposited via high velocity oxy-fuel (HVOF) spraying onto Ti–6Al–4V substrates. Using in-flight particle diagnostics, different particle temperatures and velocitieswere employed in order to reveal their effects on microstructure and mechanical properties of the coatings. A series of linear dependencies were observed involving processing conditions (i.e., in-flight particle temperature and velocity) and characteristics of the resulting coating microstructural features and properties, such as, phase composition, Vickers microhardness and the deflection of Almen strips (residual stress). High-bond strength valueswere observed when compared with other ceramic thermal spray coatings available in the literature. This study provides different levels of information on the processing of nanostructured ceramic powders via HVOF spraying and opens possibilities for development and application of HVOF-sprayed nanostructured titania coatings in the biomedical field and other disciplines, where superior mechanical behaviour is required.
Publication date
LanguageEnglish
AffiliationNational Research Council Canada (NRC-CNRC); NRC Industrial Materials Institute
Peer reviewedYes
NRC number49406
NPARC number15804311
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Record identifier1ab88500-74ce-4c5f-ba1f-2342faf38d46
Record created2010-07-09
Record modified2016-05-09
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