Mechanical properties and tribological behaviors of Ni (5Al)-Al2O3-MoS2-Ag composite coatings at various temperatures

Mechanical properties and tribological behaviors of Ni (5Al)-Al2O3-MoS2-Ag composite coatings at various temperatures

Given the ongoing demand for self-lubricating metal matrix coatings, Ni(5Al)-Al2O3-MoS2-Ag composite coatings were developed and evaluated in this study. For this purpose, Al2O3, MoS2, and Ag at various contents as hard wear-resistant and solid lubricants phases, respectively, were embedded in Ni (5...

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Bibliographic Details
Published in:Surface & coatings technology Vol. 456; p. 129251
Main Authors: Sadri, Ehsan, Bakhshi, Saeed Reza, Heidari, Masoud, Sichani, Hesam Rezvani, Hosseini, Sayed Rahman, Ramazani, Mazaher
Format: Journal Article
Language:English
Published: Elsevier B.V 15-03-2023
Subjects:
Friction
NiAl2O4
Nickel matrix composite coating
Plasma spray
Self-lubricating
Wet-milling
Self-lubricating
Nickel matrix composite coating
NiAl2O4
Friction
Wet-milling
Plasma spray
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Summary:Given the ongoing demand for self-lubricating metal matrix coatings, Ni(5Al)-Al2O3-MoS2-Ag composite coatings were developed and evaluated in this study. For this purpose, Al2O3, MoS2, and Ag at various contents as hard wear-resistant and solid lubricants phases, respectively, were embedded in Ni (5Al) matrix. Wet-milling process along with spray drying were successfully employed for producing composite granules with a rather uniform distribution of reinforcements which were appropriate for plasma spraying. After the plasma spraying of the agglomerated powders, phase composition, microstructure and mechanical properties were investigated, along with the tribological behaviors of the coatings from room to 600 °C. The formation of NiAl2O4 spinel, NiO, and Ni3S2 during the milling and plasma spraying affected the mechanical and tribological behaviors of the coatings. Furthermore, the decomposition of MoS2 to MoO3 and oxidation of Ni at high temperatures altered the tribological behaviors of the coatings. The best frictional behaviors at all temperatures were obtained for Ni(5Al)- 20 wt% Al2O3–15 wt% MoS2–5 wt% Ag coating thanks to its optimized content of Ag, MoS2, and Al2O3. [Display omitted] •Wet-milling is an appropriate process for production of metal matrix granules.•The advantage of wet- versus dry-milling is fragmentation of the metal particles.•NiO, Ni3S2 and NiAl2O4 particles have detrimental effects on 25 °C performance of coatings.•Promotion of hardness a lonely, may reduce adhesion and wear resistance of composite coatings.•Low shear strength of NiO and MoO3 at 600 °C contribute to the self-lubrication behavior.
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2023.129251