Plasma nitriding effect on tribological and corrosion properties of Stellite 6 and 12 PTA weld clad hardfaced on stainless steel 410

Plasma nitriding effect on tribological and corrosion properties of Stellite 6 and 12 PTA weld clad hardfaced on stainless steel 410

Cladded Stellites on steel substrates are utilized vastly in harsh environments. Since the plasma nitriding process can raise the tribological behavior of the material surface. Thus, the main purpose of this paper is to investigate tribological and corrosion characteristics of nitrided Stellite 6 an...

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Bibliographic Details
Published in:Results in surfaces and interfaces Vol. 11; p. 100108
Main Authors: Poshtahani, Alireza Gholami, Roostaie, Saied, Azadi, Mahboobeh
Format: Journal Article
Language:English
Published: Elsevier B.V 01-05-2023
Elsevier
Subjects:
Corrosion
Microstructure
Plasma nitriding
Plasma-Transferred Arc Welding
Stellite
Wear
Plasma nitriding
Stellite
Corrosion
Plasma-Transferred Arc Welding
Microstructure
Wear
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Summary:Cladded Stellites on steel substrates are utilized vastly in harsh environments. Since the plasma nitriding process can raise the tribological behavior of the material surface. Thus, the main purpose of this paper is to investigate tribological and corrosion characteristics of nitrided Stellite 6 and 12 that were cladded through a plasma-transferred arc (PTA) method on stainless steel 410. A Pin-on-disk tribometer, Tafel polarization, and electrochemical impedance spectroscopy were utilized to study the properties of various coatings. The X-ray diffraction patterns indicated that both cladded coatings mainly included solid solution phase (γ-Co) and chromium-rich carbide phases. However, after the plasma nitriding (PN) process, nitrided phases such as CrN, CoN, and W2N were found at the surface of coatings. The PN process caused a reduction in wear rates for both Stellite coatings by about 89–98%. This reduction was due to the hardness increase and the friction coefficient decrease. However, this PN process increased the corrosion rate of Stellites in a 3.5% wt NaCl solution. Such behavior was based on forming brittle and hard nitrided phases that promote surface cracks and open the path for ion corrosion penetration. •Plasma nitriding process could enhance the wear resistance of cladded Stellite.•Nitrided phases were responsible to change corrosion properties of Stellite.•Carbide precipitates were effective to increase the stellite hardness.
ISSN:2666-8459
2666-8459
DOI:10.1016/j.rsurfi.2023.100108