L. Vernhes scite author profile

Wear of materials is a serious problem facing industry especially in mechanical applications where moving parts are continuously subjected to friction. Hard coatings prepared by a variety of processes are nowadays considered as effective solutions to protect components against wear. Examples of such processes are: thermal spray coating, vacuum-based coating and hardfacing. In this paper, we study the mechanical, tribological and corrosion properties of two hard coating systems: CoCr Stellite 6 (ST6) hardfacing on 316 stainless steel and NiWCrB Colmonoy 88 (C88) thermal spray coating on Inconel 718. The effect of gas nitriding on the microstructure and wear performance of these coating systems is investigated. X-ray diffraction, energy dispersive spectroscopy and scanning electron microscopy were used for microstructural analysis. Micro-indentation technique was utilized to measure the surface and cross-sectional hardness of the coatings. Rockwell indentation technique was used to evaluate coating adhesion in accordance with CEN/TS 1071-8. Pin-on-disk tests were conducted to assess the tribological performance of the coatings. Microstructural analysis showed that ST6 has a cobalt matrix in the form of dendrites reinforced with metal carbide particles whereas C88 has a Nickel matrix reinforced mainly with metal boride particles. ST6 and C88 improved significantly the wear resistance of their corresponding substrates. This is mainly due to good adhesion and high hardness of the coatings; HR15N values of ST6 and C88 were almost 85 as compared to 61 and 80 for 316 and INC substrates, respectively. ST6 was found to improve significantly the corrosion resistance of 316 whereas C88 decreased the corrosion performance of INC. Moreover, nitriding treatment was found to improve significantly the wear resistance of 316 and INC, however, in the case of ST6, nitriding was beneficial in terms of wear resistance only at relatively low load.

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Nanostructured and Conventional Cr2O3, TiO2, and TiO2-Cr2O3 Thermal Sprayed Coatings for Metal Seated Ball Valve Applications in Hydrometallurgy

Vernhes¹,

Bekins²,

Lourdel³

et al. 2014

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This study evaluates candidate coatings for potential use in the manufacture of metal-seated ball valves for hydrometallurgy service. All coatings were deposited on grit-blasted titanium coupons by air plasma spraying to a nominal layer thickness of 500 µm. The feedstock powders used were selected based on literature review and field experience and include Cr2O3, TiO2-Cr2O3, nano TiO2, and a novel mixture of nano TiO2 and conventional Cr2O3. The resulting coatings are compared based on microhardness, shear strength, friction properties, and wear resistance. Specimen preparation procedures and test methods are described in the paper along with the findings and potential implications of the study.

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L. Vernhes

Nanostructured and Conventional Cr2O3, TiO2, and TiO2-Cr2O3 Thermal-Sprayed Coatings for Metal-Seated Ball Valve Applications in Hydrometallurgy

HVOF Coating Case Study for Power Plant Process Control Ball Valve Application

Alternatives for hard chromium plating: Nanostructured coatings for severe-service valves

Hybrid Co-Cr/W-WC and Ni-W-Cr-B/W-WC Coating Systems

Microstructural and mechanical characterization of Stellite-hardfaced coatings with two types of buffer layers

Predicting the Load-Carrying Capacity and Wear Resistance of Duplex-Coated Low-Strength Alloys for Severe Service Ball Valves

Tribo Mechanical Properties of CoCr and NiWCrB Hardfacing Superalloy Coating Systems

Nanostructured and Conventional Cr2O3, TiO2, and TiO2-Cr2O3 Thermal Sprayed Coatings for Metal Seated Ball Valve Applications in Hydrometallurgy

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