Damage Accumulation Phenomena in Multilayer (TiAlCrSiY)N/(TiAlCr)N, Monolayer (TiAlCrSiY)N Coatings and Silicon upon Deformation by Cyclic Nanoindentation

The micromechanism of the low-cycle fatigue of mono- and multilayer PVD coatings on cutting tools was investigated. Multilayer nanolaminate (TiAlCrSiY)N/(TiAlCr)N and monolayer (TiAlCrSiY)N PVD coatings were deposited on the cemented carbide ball nose end mills. Low-cycle fatigue resistance was stud...

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Autores principales: Kovalev, Anatoly I., Vakhrushev, Vladimir O., Beake, Ben D., Konovalov, Egor P., Wainstein, Dmitry L., Dmitrievskii, Stanislav A., Fox-Rabinovich, German S., Veldhuis, Stephen
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9026849/
https://www.ncbi.nlm.nih.gov/pubmed/35458020
http://dx.doi.org/10.3390/nano12081312
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author Kovalev, Anatoly I.
Vakhrushev, Vladimir O.
Beake, Ben D.
Konovalov, Egor P.
Wainstein, Dmitry L.
Dmitrievskii, Stanislav A.
Fox-Rabinovich, German S.
Veldhuis, Stephen
author_facet Kovalev, Anatoly I.
Vakhrushev, Vladimir O.
Beake, Ben D.
Konovalov, Egor P.
Wainstein, Dmitry L.
Dmitrievskii, Stanislav A.
Fox-Rabinovich, German S.
Veldhuis, Stephen
author_sort Kovalev, Anatoly I.
collection PubMed
description The micromechanism of the low-cycle fatigue of mono- and multilayer PVD coatings on cutting tools was investigated. Multilayer nanolaminate (TiAlCrSiY)N/(TiAlCr)N and monolayer (TiAlCrSiY)N PVD coatings were deposited on the cemented carbide ball nose end mills. Low-cycle fatigue resistance was studied using the cyclic nanoindentation technique. The obtained results were compared with the behaviour of the polycrystalline silicon reference sample. The fractal analysis of time-resolved curves for indenter penetration depth demonstrated regularities of damage accumulation in the coatings at the early stage of wear. The difference in low-cycle fatigue of the brittle silicon and nitride wear-resistant coatings is shown. It is demonstrated that when distinguished from the single layer (TiAlCrSiY)N coating, the nucleation and growth of microcracks in the multilayer (TiAlCrSiY)N/(TiAlCr)N coating is accompanied by acts of microplastic deformation providing a higher fracture toughness of the multilayer nanolaminate (TiAlCrSiY)N/(TiAlCr)N.
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spelling pubmed-90268492022-04-23 Damage Accumulation Phenomena in Multilayer (TiAlCrSiY)N/(TiAlCr)N, Monolayer (TiAlCrSiY)N Coatings and Silicon upon Deformation by Cyclic Nanoindentation Kovalev, Anatoly I. Vakhrushev, Vladimir O. Beake, Ben D. Konovalov, Egor P. Wainstein, Dmitry L. Dmitrievskii, Stanislav A. Fox-Rabinovich, German S. Veldhuis, Stephen Nanomaterials (Basel) Article The micromechanism of the low-cycle fatigue of mono- and multilayer PVD coatings on cutting tools was investigated. Multilayer nanolaminate (TiAlCrSiY)N/(TiAlCr)N and monolayer (TiAlCrSiY)N PVD coatings were deposited on the cemented carbide ball nose end mills. Low-cycle fatigue resistance was studied using the cyclic nanoindentation technique. The obtained results were compared with the behaviour of the polycrystalline silicon reference sample. The fractal analysis of time-resolved curves for indenter penetration depth demonstrated regularities of damage accumulation in the coatings at the early stage of wear. The difference in low-cycle fatigue of the brittle silicon and nitride wear-resistant coatings is shown. It is demonstrated that when distinguished from the single layer (TiAlCrSiY)N coating, the nucleation and growth of microcracks in the multilayer (TiAlCrSiY)N/(TiAlCr)N coating is accompanied by acts of microplastic deformation providing a higher fracture toughness of the multilayer nanolaminate (TiAlCrSiY)N/(TiAlCr)N. MDPI 2022-04-11 /pmc/articles/PMC9026849/ /pubmed/35458020 http://dx.doi.org/10.3390/nano12081312 Text en © 2022 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
Kovalev, Anatoly I.
Vakhrushev, Vladimir O.
Beake, Ben D.
Konovalov, Egor P.
Wainstein, Dmitry L.
Dmitrievskii, Stanislav A.
Fox-Rabinovich, German S.
Veldhuis, Stephen
Damage Accumulation Phenomena in Multilayer (TiAlCrSiY)N/(TiAlCr)N, Monolayer (TiAlCrSiY)N Coatings and Silicon upon Deformation by Cyclic Nanoindentation
title Damage Accumulation Phenomena in Multilayer (TiAlCrSiY)N/(TiAlCr)N, Monolayer (TiAlCrSiY)N Coatings and Silicon upon Deformation by Cyclic Nanoindentation
title_full Damage Accumulation Phenomena in Multilayer (TiAlCrSiY)N/(TiAlCr)N, Monolayer (TiAlCrSiY)N Coatings and Silicon upon Deformation by Cyclic Nanoindentation
title_fullStr Damage Accumulation Phenomena in Multilayer (TiAlCrSiY)N/(TiAlCr)N, Monolayer (TiAlCrSiY)N Coatings and Silicon upon Deformation by Cyclic Nanoindentation
title_full_unstemmed Damage Accumulation Phenomena in Multilayer (TiAlCrSiY)N/(TiAlCr)N, Monolayer (TiAlCrSiY)N Coatings and Silicon upon Deformation by Cyclic Nanoindentation
title_short Damage Accumulation Phenomena in Multilayer (TiAlCrSiY)N/(TiAlCr)N, Monolayer (TiAlCrSiY)N Coatings and Silicon upon Deformation by Cyclic Nanoindentation
title_sort damage accumulation phenomena in multilayer (tialcrsiy)n/(tialcr)n, monolayer (tialcrsiy)n coatings and silicon upon deformation by cyclic nanoindentation
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9026849/
https://www.ncbi.nlm.nih.gov/pubmed/35458020
http://dx.doi.org/10.3390/nano12081312
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