Effect of Boron and Vanadium Addition on Friction-Wear Properties of the Coating AlCrN for Special Applications

Cutting tools have long been coated with an AlCrN hard coating system that has good mechanical and tribological qualities. Boron (B) and vanadium (V) additions to AlCrN coatings were studied for their mechanical and tribological properties. Cathodic multi-arc evaporation was used to successfully man...

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Autores principales: Nguyen, Huu Chien, Joska, Zdeněk, Pokorný, Zdeněk, Studený, Zbyněk, Sedlák, Josef, Majerík, Josef, Svoboda, Emil, Dobrocký, David, Procházka, Jiří, Tran, Quang Dung
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8399982/
https://www.ncbi.nlm.nih.gov/pubmed/34443172
http://dx.doi.org/10.3390/ma14164651
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author Nguyen, Huu Chien
Joska, Zdeněk
Pokorný, Zdeněk
Studený, Zbyněk
Sedlák, Josef
Majerík, Josef
Svoboda, Emil
Dobrocký, David
Procházka, Jiří
Tran, Quang Dung
author_facet Nguyen, Huu Chien
Joska, Zdeněk
Pokorný, Zdeněk
Studený, Zbyněk
Sedlák, Josef
Majerík, Josef
Svoboda, Emil
Dobrocký, David
Procházka, Jiří
Tran, Quang Dung
author_sort Nguyen, Huu Chien
collection PubMed
description Cutting tools have long been coated with an AlCrN hard coating system that has good mechanical and tribological qualities. Boron (B) and vanadium (V) additions to AlCrN coatings were studied for their mechanical and tribological properties. Cathodic multi-arc evaporation was used to successfully manufacture the AlCrBN and AlCrVN coatings. These multicomponent coatings were applied to the untreated and plasma-nitrided surfaces of HS6-5-2 and H13 steels, respectively. Nanoindentation and Vickers micro-hardness tests were used to assess the mechanical properties of the materials. Ball-on-flat wear tests with WC-Co balls as counterparts were used to assess the friction-wear capabilities. Nanoindentation tests demonstrated that AlCrBN coating has a higher hardness (HIT 40.9 GPa) than AlCrVN coating (39.3 GPa). Steels’ wear resistance was significantly increased by a hybrid treatment that included plasma nitriding and hard coatings. The wear volume was 3% better for the AlCrBN coating than for the AlCrVN coating on H13 nitrided steel, decreasing by 89% compared to the untreated material. For HS6-5-2 steel, the wear volume was almost the same for both coatings but decreased by 77% compared to the untreated material. Boron addition significantly improved the mechanical, tribological, and adhesive capabilities of the AlCrN coating.
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spelling pubmed-83999822021-08-29 Effect of Boron and Vanadium Addition on Friction-Wear Properties of the Coating AlCrN for Special Applications Nguyen, Huu Chien Joska, Zdeněk Pokorný, Zdeněk Studený, Zbyněk Sedlák, Josef Majerík, Josef Svoboda, Emil Dobrocký, David Procházka, Jiří Tran, Quang Dung Materials (Basel) Article Cutting tools have long been coated with an AlCrN hard coating system that has good mechanical and tribological qualities. Boron (B) and vanadium (V) additions to AlCrN coatings were studied for their mechanical and tribological properties. Cathodic multi-arc evaporation was used to successfully manufacture the AlCrBN and AlCrVN coatings. These multicomponent coatings were applied to the untreated and plasma-nitrided surfaces of HS6-5-2 and H13 steels, respectively. Nanoindentation and Vickers micro-hardness tests were used to assess the mechanical properties of the materials. Ball-on-flat wear tests with WC-Co balls as counterparts were used to assess the friction-wear capabilities. Nanoindentation tests demonstrated that AlCrBN coating has a higher hardness (HIT 40.9 GPa) than AlCrVN coating (39.3 GPa). Steels’ wear resistance was significantly increased by a hybrid treatment that included plasma nitriding and hard coatings. The wear volume was 3% better for the AlCrBN coating than for the AlCrVN coating on H13 nitrided steel, decreasing by 89% compared to the untreated material. For HS6-5-2 steel, the wear volume was almost the same for both coatings but decreased by 77% compared to the untreated material. Boron addition significantly improved the mechanical, tribological, and adhesive capabilities of the AlCrN coating. MDPI 2021-08-18 /pmc/articles/PMC8399982/ /pubmed/34443172 http://dx.doi.org/10.3390/ma14164651 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Nguyen, Huu Chien
Joska, Zdeněk
Pokorný, Zdeněk
Studený, Zbyněk
Sedlák, Josef
Majerík, Josef
Svoboda, Emil
Dobrocký, David
Procházka, Jiří
Tran, Quang Dung
Effect of Boron and Vanadium Addition on Friction-Wear Properties of the Coating AlCrN for Special Applications
title Effect of Boron and Vanadium Addition on Friction-Wear Properties of the Coating AlCrN for Special Applications
title_full Effect of Boron and Vanadium Addition on Friction-Wear Properties of the Coating AlCrN for Special Applications
title_fullStr Effect of Boron and Vanadium Addition on Friction-Wear Properties of the Coating AlCrN for Special Applications
title_full_unstemmed Effect of Boron and Vanadium Addition on Friction-Wear Properties of the Coating AlCrN for Special Applications
title_short Effect of Boron and Vanadium Addition on Friction-Wear Properties of the Coating AlCrN for Special Applications
title_sort effect of boron and vanadium addition on friction-wear properties of the coating alcrn for special applications
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8399982/
https://www.ncbi.nlm.nih.gov/pubmed/34443172
http://dx.doi.org/10.3390/ma14164651
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