A. D. Pogrebnyak, O. V. Bondar, B. Zhollybekov, S. Konstantinov, P. Konarski, V. M. Beresnev, A. I. Kupchishin, “Influence of the bilayer thickness of nanostructured multilayer MoN/CrN coating on its microstructure, hardness, and elemental composition”, Fizika Tverdogo Tela, 59:9 (2017), 1773–1777; Phys. Solid State, 59:9 (2017), 1798

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Fizika Tverdogo Tela, 2017, Volume 59, Issue 9, Pages 1773–1777
DOI: https://doi.org/10.21883/FTT.2017.09.44850.163 (Mi ftt9464)

This article is cited in 9 scientific papers (total in 9 papers)

Mechanical properties, strength physics and plasticity

Influence of the bilayer thickness of nanostructured multilayer MoN/CrN coating on its microstructure, hardness, and elemental composition

A. D. Pogrebnyak^a, O. V. Bondar^ab, B. Zhollybekov^c, S. Konstantinov^d, P. Konarski^e, V. M. Beresnev^f, A. I. Kupchishin^g

^a Sumy State University
^b NanoBioMedical Centre, Adam Mickiewicz University, Poznan, Poland
^c Karakalpak State University named after Berdakh
^d Belarusian State University, Minsk
^e Tele and Radio Research Institute, Warsaw, Poland
^f V. N. Karazin Kharkiv National University
^g Kazakh National Pedagogical University, Almaty, Kazakhstan

Full-text PDF (1019 kB) Citations (9)

DOI: https://doi.org/10.21883/FTT.2017.09.44850.163

Abstract: Multilayer nanostructured coatings consisting of alternating MoN and CrN layers were obtained by vacuum cathode evaporation under various conditions of deposition. The transition from micron sizes of bilayers to the nanometer scale in the coatings under investigation leads to an increase in hardness from 15 to 35.5 GPa (with a layer thickness of about 35 nm). At the same time, when the number of bilayers in the coating decreases, the average Vickers hardness increases from 1267 HV

_{0.05}

$_{0.05}$ to 3307 HV

_{0.05}

$_{0.05}$ . An increase in the value of the potential supplied to the substrate from -20 to -150 V leads to the formation of growth textures in coating layers with the [100] axis, and to an increase in the intensity of reflections with increasing bilayer thickness. Elemental analysis carried out with the help of Rutherford backscattering, secondary ion mass spectrometry and energy dispersion spectra showed a good separation of the MoN and CrN layers near the surface of the coatings.

Received: 28.04.2016
Revised: 14.03.2017

English version:
Physics of the Solid State, 2017, Volume 59, Issue 9, Pages 1798–1802
DOI: https://doi.org/10.1134/S1063783417090232

Bibliographic databases:

Document Type: Article

Language: Russian

Citation: A. D. Pogrebnyak, O. V. Bondar, B. Zhollybekov, S. Konstantinov, P. Konarski, V. M. Beresnev, A. I. Kupchishin, “Influence of the bilayer thickness of nanostructured multilayer MoN/CrN coating on its microstructure, hardness, and elemental composition”, Fizika Tverdogo Tela, 59:9 (2017), 1773–1777; Phys. Solid State, 59:9 (2017), 1798–1802

Citation in format AMSBIB

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\by A.~D.~Pogrebnyak, O.~V.~Bondar, B.~Zhollybekov, S.~Konstantinov, P.~Konarski, V.~M.~Beresnev, A.~I.~Kupchishin

\paper Influence of the bilayer thickness of nanostructured multilayer MoN/CrN coating on its microstructure, hardness, and elemental composition

\jour Fizika Tverdogo Tela

\yr 2017

\vol 59

\issue 9

\pages 1773--1777

\mathnet{http://mi.mathnet.ru/ftt9464}

\crossref{https://doi.org/10.21883/FTT.2017.09.44850.163}

\elib{https://elibrary.ru/item.asp?id=29973087}

\transl

\jour Phys. Solid State

\yr 2017

\vol 59

\issue 9

\pages 1798--1802

\crossref{https://doi.org/10.1134/S1063783417090232}

Linking options:

https://www.mathnet.ru/eng/ftt9464

https://www.mathnet.ru/eng/ftt/v59/i9/p1773

This publication is cited in the following 9 articles:

Vadzim Chayeuski, Abdelhafed Taleb, Valery Zhylinski, Andrei Kuleshov, Roman Shtempliuk, “Preparation and Characterization of the Cr-Nanodiamonds/MoN Coatings with Performant Mechanical Properties”, Coatings, 12:7 (2022), 1012
Sidra Iram, Jianming Wang, Fei Cai, Jiamin Zhang, Farooq Ahmad, Jiagang Liang, Shihong Zhang, “Effect of bilayer number on mechanical and wear behaviours of the AlCrN/AlCrMoN coatings by AIP method”, Surface Engineering, 37:4 (2021), 536
Qian Li, Lizhen Yang, Zhengduo Wang, Haibao Zhang, Zhongwei Liu, Qiang Chen, “The superior properties of CrN coatings prepared by high power pulsed reactive magnetron sputtering”, AIP Advances, 10:1 (2020)
Alexander Pogrebnjak, Kateryna Smyrnova, Oleksandr Bondar, “Nanocomposite Multilayer Binary Nitride Coatings Based on Transition and Refractory Metals: Structure and Properties”, Coatings, 9:3 (2019), 155
V. I. Ivashchenko, V. M. Rogoz, T. N. Koltunowicz, A. I. Kupchishin, Lecture Notes in Mechanical Engineering, Advances in Thin Films, Nanostructured Materials, and Coatings, 2019, 51
Vyacheslav Beresnev, S Litovchenko, Svitlana Borba-Pogrebnjak, Aleksander Pogrebnjak, Vitalii Bondariev, Katerina Smyrnova, Ionica Cristea, Marian Vladescu, Razvan D. Tamas, Advanced Topics in Optoelectronics, Microelectronics, and Nanotechnologies IX, 2018, 142
A. D. Pogrebnyak, V. I. Ivashchenko, N. K. Erdybaeva, A. I. Kupchishin, M. A. Lisovenko, “Microstructure and mechanical properties of multilayer $\alpha$ -AlN/ $\alpha$ -BCN coating as functions of the current density during sputtering of a B $_4$ C target”, Phys. Solid State, 60:10 (2018), 2030–2033
K. V. Smyrnova, A. D. Pogrebnjak, V. M. Beresnev, S. V. Litovchenko, S. O. Borba-Pogrebnjak, A. S. Manokhin, S. A. Klimenko, B. Zhollybekov, A. I. Kupchishin, Ya. O. Kravchenko, O. V. Bondar, “Microstructure and Physical–Mechanical Properties of (TiAlSiY)N Nanostructured Coatings Under Different Energy Conditions”, Met. Mater. Int., 24:5 (2018), 1024
Alexander Pogrebnjak, Volodymyr Ivashchenko, Oleksandr Bondar, Vyacheslav Beresnev, Oleg Sobol, Karol Załȩski, Stefan Jurga, Emerson Coy, Piotr Konarski, Bogdan Postolnyi, “Multilayered vacuum-arc nanocomposite TiN/ZrN coatings before and after annealing: Structure, properties, first-principles calculations”, Materials Characterization, 134 (2017), 55

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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