Выпуски МФиНТ »  Том 46, выпуск 1

Influence of Technological Parameters of Deposition on Physical and Mechanical Properties of Vacuum-Arc Multilayer Nitride Coatings Based on Chromium and Niobium

I. V. Serdiuk$^{1}$, S. I. Petrushenko$^{2,3}$, V. O. Stolbovyi$^{1}$, M. Fijalkowski$^{3}$

$^{1}$Национальный научный центр «Харьковский физико-технический институт» НАН Украины, ул. Академическая, 1, 61108 Харьков, Украина
$^{2}$Харьковский национальный университет имени В. Н. Каразина, пл. Свободы, 4, 61022 Харьков, Украина
$^{3}$Либерецкий технический университет, ул. Студенческая 1402/2, 46117 Либерец 1, Чешская Республика

Получена: 17.10.2023; окончательный вариант - 20.11.2023. Скачать: PDF

Establishing the regularities of the structure and phase formation of vacuum-arc multilayer nitride coatings at different technological parameters is important for the predicted obtaining of the required properties of multilayer systems. To analyse the influence on the physical and mechanical properties, the following technological parameters of deposition vacuum-arc multilayer nitride coatings are chosen: pressure of the reaction gas in the vacuum chamber (0.08–0.27 Pa), constant negative voltage on the substrate (70–200 V), layer thickness (17–150 nm) and number of layers (68, 270, 1080). Chromium and niobium nitrides, which are promising materials in many fields of application, are chosen as components of vacuum-arc coatings. The research show that vacuum-arc multilayer nitride coatings СrN/NbN obtained under different technological conditions have high planarity of layers and practically no drop phase in the volume of the coating. The analysis of heterogeneity of the structural and phase state of the coatings is carried out by the root-mean-square deviation of the vacuum-arc coating microhardness. The trends in changes in physical and mechanical properties are evaluated based on the average values of microhardness, contact modulus of elasticity, and others ratios.

Ключевые слова: vacuum-arc coatings, multilayer coatings, microhardness, surface morphology, physical and mechanical properties.

URL: https://mfint.imp.kiev.ua/ru/abstract/v46/i01/0023.html

PACS: 62.20.Qp, 62.23.Kn, 68.37.Hk, 68.60.-p, 68.65.Ac, 81.15.-z, 81.65.Lp

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