Ravi Dey

Type

Text

Type

Dissertation

Advisor

Welch, David | Weyant, Christopher M | Fortmann, Charles M | Korach, Chad S.

Date

2012-08-01

Keywords

Materials Science | Corrosion, Electrochemical, Hexavalent, Porosity, Thermal Spray

Department

Department of Materials Science and Engineering

Language

en_US

Source

This work is sponsored by the Stony Brook University Graduate School in compliance with the requirements for completion of degree.

Identifier

http://hdl.handle.net/11401/70912

Publisher

The Graduate School, Stony Brook University: Stony Brook, NY.

Format

application/pdf

Abstract

Electroplated hard chrome (EHC) is used for wear and corrosion resistance applications in many industries. The hexavalent chrome present in the plating baths is a major concern due to its highly carcinogenic behavior. . In addition, EHC has technological problems including micro and macro cracking, inconsistent corrosion protection, long processing time and wide differences in behavior of coatings deposited by different plating houses. Thermally sprayed (TS) cermet coatings with a hard ceramic (e.g. tungsten carbide (WC)) embedded in a ductile matrix (Co, Cr and/or Ni) are being developed as candidates for chrome replacement. Thermal spray techniques, specifically high velocity oxy-fuel (HVOF), provide an environmental friendly method for coating surfaces and are increasingly used for wear, friction and corrosion protection. However, to validate the TS cermets, the issue of interconnected porosity, usually a marked characteristic of TS coatings, needs to be addressed. In this study, the influence of processing parameters on the corrosion performance of HVOF-deposited metallic and cermet coatings has been determined. Electrochemical studies including open circuit potential and cyclic polarization were performed to assess corrosion susceptibility and passivation behavior. The results indicate a strong correlation of processing parameters, in situ particle state and mechanical properties with corrosion behavior. | 178 pages

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