Tribological and Corrosion Behavior of AISI 1045 Coated with AISI 316 Film Produced By Triode Magnetron Sputtering

Tribological and Corrosion Behavior of AISI 1045 Coated with AISI 316 Film Produced By Triode Magnetron Sputtering

Recent studies have demonstrated mechanical, tribological and corrosion improvements properties on raw materials coated with stainless steel films produced by magnetron sputtering. However, few studies have reported the tribological behavior of thin austenitic stainless-steel films applied to the su...

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Bibliographic Details
Published in:Materials research (São Carlos, São Paulo, Brazil) Vol. 27
Main Authors: Gorski, Silviane C. F., Nunes, Bruno, Recco, Abel A. C., Costa, Cesar E. da, Schroeder, Marcus V. F., Milan, Julio C. Giubilei
Format: Journal Article
Language:English
Published: ABM, ABC, ABPol 01-01-2024
Associação Brasileira de Metalurgia e Materiais (ABM); Associação Brasileira de Cerâmica (ABC); Associação Brasileira de Polímeros (ABPol)
Subjects:
Corrosion Resistance
ENGINEERING, CHEMICAL
Magnetron Sputtering
MATERIALS SCIENCE, MULTIDISCIPLINARY
METALLURGY & METALLURGICAL ENGINEERING
Sliding Wear
Stainless Steel Films
Thin films
Triode Magnetron Sputtering
Thin films
Magnetron Sputtering
Corrosion Resistance
Triode Magnetron Sputtering
Sliding Wear
Stainless Steel Films
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Summary:Recent studies have demonstrated mechanical, tribological and corrosion improvements properties on raw materials coated with stainless steel films produced by magnetron sputtering. However, few studies have reported the tribological behavior of thin austenitic stainless-steel films applied to the surface of carbon steels. The present study investigated the tribological behavior of AISI 1045 carbon steel coated with AISI 316 stainless steel film. Pin-on-disc dry sliding wear test was performed. The wear tracks were analyzed using a scanning electron and confocal microscopes. The corrosion resistance of coated and uncoated AISI 1045 were also assessed through an electrochemical test. Samples which presented a mixture of α-Ferrite and γ-iron, with predominant austenite parts, demonstrated lower friction coefficient, lower wear rates, and better corrosion resistance compared to substrate material. The results were also influenced by the variables used in the deposition process, as observed, heating the substrate and submitting to a higher powder density could improve the results. The results found corroborate to the academic and industrial research which looks for coating alternatives to AISI 1045 tools.
ISSN:1516-1439
1980-5373
1980-5373
DOI:10.1590/1980-5373-mr-2023-0359