Surface microhardness of stainless steel which are modified by ionic implantation

Surface microhardness of stainless steel which are modified by ionic implantation

The importance of the problem of applied systems synthesis with active components was established. Based on the analysis of literary sources, the optimal processing technology of the stainless steel carrier was chosen. The objective of this paper was formulated, and the task of investigating the mec...

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Збережено в:
Бібліографічні деталі
Дата:2014
Автор: Гончаров, Виталий Викторович
Формат: Стаття
Мова:Russian
Опубліковано: Journal of Mechanical Engineering 2014
Теми:
ion implantation
catalyst
microhardness
ductility
УДК 621.384.649/620.178.143.34
ионная имплантация
катализатор
микротвердость
пластичность
іонна імплантація
каталізатор
мікротвердість
пластичність
Онлайн доступ:https://journals.uran.ua/jme/article/view/21322
Теги: Додати тег
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Назва журналу:Journal of Mechanical Engineering

Репозитарії

Journal of Mechanical Engineering
id journalsuranuajme-article-21322
record_format ojs
spelling journalsuranuajme-article-213222024-06-01T14:40:56Z Surface microhardness of stainless steel which are modified by ionic implantation Микротвердость поверхности нержавеющей стали, модифицированной ионной имплантацией Мікротвердість поверхні нержавіючої сталі, модифікованої іонною імплантацією Гончаров, Виталий Викторович ion implantation catalyst microhardness ductility УДК 621.384.649/620.178.143.34 ионная имплантация катализатор микротвердость пластичность УДК 621.384.649/620.178.143.34 іонна імплантація каталізатор мікротвердість пластичність УДК 621.384.649/620.178.143.34 The importance of the problem of applied systems synthesis with active components was established. Based on the analysis of literary sources, the optimal processing technology of the stainless steel carrier was chosen. The objective of this paper was formulated, and the task of investigating the mechanical properties of steel-based systems was set. The techniques of obtaining and studying samples were considered. The samples were synthesized by implanting ions of nitrogen, chromium, aluminum, titanium, molybdenum on the stainless steel. The study of microhardness and ductility of the obtained samples was conducted by the scratching method. It was shown that ion implantation as the processing technology significantly improves mechanical characteristics of the initial carrier − stainless foil. Microhardness of samples is increased (except the implant with chromium), and ductility is slightly reduced. The prospects of applying the obtained composites as working elements of catalysts, heating and electrical equipment, etc., were shown. Исследованы микротвердость и пластичность образцов на основе нержавеющей стали, обработанных с помощью имплантации ионов азота, хрома, алюминия, титана и молибдена. Показана перспективность применения полученных имплантатов в условиях механического нагружения. Досліджено мікротвердість і пластичність зразків на основі нержавіючої сталі, оброблених за допомогою імплантації іонів азоту, хрому, алюмінію, титану і молібдену. Показано перспективність застосування отриманих імплантатів в умовах механічного навантаження. Journal of Mechanical Engineering Проблемы машиностроения Проблеми машинобудування 2014-02-07 Article Article application/pdf https://journals.uran.ua/jme/article/view/21322 Journal of Mechanical Engineering; Vol. 16 No. 6 (2013); 47-51 Проблемы машиностроения; Том 16 № 6 (2013); 47-51 Проблеми машинобудування; Том 16 № 6 (2013); 47-51 2709-2992 2709-2984 ru https://journals.uran.ua/jme/article/view/21322/36483 Copyright (c) 2015 Виталий Викторович Гончаров https://creativecommons.org/licenses/by-nd/4.0
institution Journal of Mechanical Engineering
collection OJS
language Russian
topic ion implantation
catalyst
microhardness
ductility
УДК 621.384.649/620.178.143.34
ионная имплантация
катализатор
микротвердость
пластичность
УДК 621.384.649/620.178.143.34
іонна імплантація
каталізатор
мікротвердість
пластичність
УДК 621.384.649/620.178.143.34
spellingShingle ion implantation
catalyst
microhardness
ductility
УДК 621.384.649/620.178.143.34
ионная имплантация
катализатор
микротвердость
пластичность
УДК 621.384.649/620.178.143.34
іонна імплантація
каталізатор
мікротвердість
пластичність
УДК 621.384.649/620.178.143.34
Гончаров, Виталий Викторович
Surface microhardness of stainless steel which are modified by ionic implantation
topic_facet ion implantation
catalyst
microhardness
ductility
УДК 621.384.649/620.178.143.34
ионная имплантация
катализатор
микротвердость
пластичность
УДК 621.384.649/620.178.143.34
іонна імплантація
каталізатор
мікротвердість
пластичність
УДК 621.384.649/620.178.143.34
format Article
author Гончаров, Виталий Викторович
author_facet Гончаров, Виталий Викторович
author_sort Гончаров, Виталий Викторович
title Surface microhardness of stainless steel which are modified by ionic implantation
title_short Surface microhardness of stainless steel which are modified by ionic implantation
title_full Surface microhardness of stainless steel which are modified by ionic implantation
title_fullStr Surface microhardness of stainless steel which are modified by ionic implantation
title_full_unstemmed Surface microhardness of stainless steel which are modified by ionic implantation
title_sort surface microhardness of stainless steel which are modified by ionic implantation
title_alt Микротвердость поверхности нержавеющей стали, модифицированной ионной имплантацией
Мікротвердість поверхні нержавіючої сталі, модифікованої іонною імплантацією
description The importance of the problem of applied systems synthesis with active components was established. Based on the analysis of literary sources, the optimal processing technology of the stainless steel carrier was chosen. The objective of this paper was formulated, and the task of investigating the mechanical properties of steel-based systems was set. The techniques of obtaining and studying samples were considered. The samples were synthesized by implanting ions of nitrogen, chromium, aluminum, titanium, molybdenum on the stainless steel. The study of microhardness and ductility of the obtained samples was conducted by the scratching method. It was shown that ion implantation as the processing technology significantly improves mechanical characteristics of the initial carrier − stainless foil. Microhardness of samples is increased (except the implant with chromium), and ductility is slightly reduced. The prospects of applying the obtained composites as working elements of catalysts, heating and electrical equipment, etc., were shown.
publisher Journal of Mechanical Engineering
publishDate 2014
url https://journals.uran.ua/jme/article/view/21322
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AT gončarovvitalijviktorovič míkrotverdístʹpoverhníneržavíûčoístalímodifíkovanoííonnoûímplantacíêû
first_indexed 2024-06-01T14:42:26Z
last_indexed 2024-06-01T14:42:26Z
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