Influence of the Thickness of a Nanolayer Composite Coating on Values of Residual Stress and the Nature of Coating Wear

Influence of the Thickness of a Nanolayer Composite Coating on Values of Residual Stress and the Nature of Coating Wear

The article discusses the influence of the thickness of the wear-resistant layer of the Zr-ZrN-(Zr,Al,Si)N nanolayer composite coating on the values of residual stress and the nature of coating wear. The study focused on coatings with wear-resistant layer thicknesses of 2.0, 4.3, 5.9, and 8.5 &#...

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Main Authors: Alexey Vereschaka, Marina Volosova, Anatoli Chigarev, Nikolay Sitnikov, Artem Ashmarin, Catherine Sotova, Jury Bublikov, Dmitry Lytkin
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:Coatings
Subjects:
nanolayer composite coating
filtered cathodic vacuum arc deposition (fcvad)
x-ray diffraction (xrd)
residual stress
wear-resistant coating
Online Access:https://www.mdpi.com/2079-6412/10/1/63
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spelling doaj-68bdfa6610cd4b3ea4e353403a431f952020-11-25T01:27:50ZengMDPI AGCoatings2079-64122020-01-011016310.3390/coatings10010063coatings10010063Influence of the Thickness of a Nanolayer Composite Coating on Values of Residual Stress and the Nature of Coating WearAlexey Vereschaka0Marina Volosova1Anatoli Chigarev2Nikolay Sitnikov3Artem Ashmarin4Catherine Sotova5Jury Bublikov6Dmitry Lytkin7VTO Department, Moscow State Technological University STANKIN, Moscow 127994, RussiaVTO Department, Moscow State Technological University STANKIN, Moscow 127994, RussiaDepartment of Theoretical Mechanics, Belarusian National Technical University, Minsk 220013, BelarusDepartment of Solid State Physics and Nanosystems, National Research Nuclear University MEPhI, Moscow 115409, RussiaBaikov Institute of Metallurgy and Materials Science RAS, Moscow 119334, RussiaVTO Department, Moscow State Technological University STANKIN, Moscow 127994, RussiaInstitute of Design and Technology Informatics (IKTI) RAN, Moscow 127055, RussiaCentral Research Institute of Machine Building Technology (PJSC SPA “CNIITMASH”), Moscow 115088, RussiaThe article discusses the influence of the thickness of the wear-resistant layer of the Zr-ZrN-(Zr,Al,Si)N nanolayer composite coating on the values of residual stress and the nature of coating wear. The study focused on coatings with wear-resistant layer thicknesses of 2.0, 4.3, 5.9, and 8.5 µm, deposited using filtered cathodic vacuum arc deposition (FCVAD) technology. The X-ray diffraction (XRD) method based on the anisotropy of the elasticity modulus was used to find the values of the residual stress. The nature of the formation of interlayer delamination under the influence of residual compressive stress was studied using a scanning electron microscope (SEM). When the wear-resistant layers had a thickness of 2.0−5.9 μm, tensile stress formed, which decreased with an increase in the thickness of the coating. When the thickness of a wear-resistant layer was 8.5 μm, compressive stress formed. Under the action of compressive stress, periodic interlayer delamination formed, with a pitch of about 10 binary nanolayers. A mathematical model is proposed to describe the nature of the formation of interlayer delamination under the influence of compressive residual stress, including in the presence of a microdroplet embedded in the coating structure.https://www.mdpi.com/2079-6412/10/1/63nanolayer composite coatingfiltered cathodic vacuum arc deposition (fcvad)x-ray diffraction (xrd)residual stresswear-resistant coating
collection DOAJ
language English
format Article
sources DOAJ
author Alexey Vereschaka
Marina Volosova
Anatoli Chigarev
Nikolay Sitnikov
Artem Ashmarin
Catherine Sotova
Jury Bublikov
Dmitry Lytkin
spellingShingle Alexey Vereschaka
Marina Volosova
Anatoli Chigarev
Nikolay Sitnikov
Artem Ashmarin
Catherine Sotova
Jury Bublikov
Dmitry Lytkin
Influence of the Thickness of a Nanolayer Composite Coating on Values of Residual Stress and the Nature of Coating Wear
Coatings
nanolayer composite coating
filtered cathodic vacuum arc deposition (fcvad)
x-ray diffraction (xrd)
residual stress
wear-resistant coating
author_facet Alexey Vereschaka
Marina Volosova
Anatoli Chigarev
Nikolay Sitnikov
Artem Ashmarin
Catherine Sotova
Jury Bublikov
Dmitry Lytkin
author_sort Alexey Vereschaka
title Influence of the Thickness of a Nanolayer Composite Coating on Values of Residual Stress and the Nature of Coating Wear
title_short Influence of the Thickness of a Nanolayer Composite Coating on Values of Residual Stress and the Nature of Coating Wear
title_full Influence of the Thickness of a Nanolayer Composite Coating on Values of Residual Stress and the Nature of Coating Wear
title_fullStr Influence of the Thickness of a Nanolayer Composite Coating on Values of Residual Stress and the Nature of Coating Wear
title_full_unstemmed Influence of the Thickness of a Nanolayer Composite Coating on Values of Residual Stress and the Nature of Coating Wear
title_sort influence of the thickness of a nanolayer composite coating on values of residual stress and the nature of coating wear
publisher MDPI AG
series Coatings
issn 2079-6412
publishDate 2020-01-01
description The article discusses the influence of the thickness of the wear-resistant layer of the Zr-ZrN-(Zr,Al,Si)N nanolayer composite coating on the values of residual stress and the nature of coating wear. The study focused on coatings with wear-resistant layer thicknesses of 2.0, 4.3, 5.9, and 8.5 µm, deposited using filtered cathodic vacuum arc deposition (FCVAD) technology. The X-ray diffraction (XRD) method based on the anisotropy of the elasticity modulus was used to find the values of the residual stress. The nature of the formation of interlayer delamination under the influence of residual compressive stress was studied using a scanning electron microscope (SEM). When the wear-resistant layers had a thickness of 2.0−5.9 μm, tensile stress formed, which decreased with an increase in the thickness of the coating. When the thickness of a wear-resistant layer was 8.5 μm, compressive stress formed. Under the action of compressive stress, periodic interlayer delamination formed, with a pitch of about 10 binary nanolayers. A mathematical model is proposed to describe the nature of the formation of interlayer delamination under the influence of compressive residual stress, including in the presence of a microdroplet embedded in the coating structure.
topic nanolayer composite coating
filtered cathodic vacuum arc deposition (fcvad)
x-ray diffraction (xrd)
residual stress
wear-resistant coating
url https://www.mdpi.com/2079-6412/10/1/63
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