The Effect of Trace Oxygen Addition on the Interface Behavior of Low-Alloy Steel

This work aims to assess the effect of an oxygen content graded in minimal quantities, on the order of hundreds of ppms, on the determination of surface tension of low-alloy FeCOCr and FeCONi steels in contact with a corundum substrate. Oxygen, as a surface-active element, was segregated at the surf...

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Autores principales: Novák, Vlastimil, Řeháčková, Lenka, Váňová, Petra, Sniegoň, Michal, Matýsek, Dalibor, Konečná, Kateřina, Smetana, Bedřich, Rosypalová, Silvie, Tkadlečková, Markéta, Drozdová, Ľubomíra, Klus, Petr
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/PMC8875985/
https://www.ncbi.nlm.nih.gov/pubmed/35208132
http://dx.doi.org/10.3390/ma15041592
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author Novák, Vlastimil
Řeháčková, Lenka
Váňová, Petra
Sniegoň, Michal
Matýsek, Dalibor
Konečná, Kateřina
Smetana, Bedřich
Rosypalová, Silvie
Tkadlečková, Markéta
Drozdová, Ľubomíra
Klus, Petr
author_facet Novák, Vlastimil
Řeháčková, Lenka
Váňová, Petra
Sniegoň, Michal
Matýsek, Dalibor
Konečná, Kateřina
Smetana, Bedřich
Rosypalová, Silvie
Tkadlečková, Markéta
Drozdová, Ľubomíra
Klus, Petr
author_sort Novák, Vlastimil
collection PubMed
description This work aims to assess the effect of an oxygen content graded in minimal quantities, on the order of hundreds of ppms, on the determination of surface tension of low-alloy FeCOCr and FeCONi steels in contact with a corundum substrate. Oxygen, as a surface-active element, was segregated at the surface where it interacted with the major components of the alloys, leading to a reduction in surface tension. The sessile drop method was used for wetting tests in the temperature range from steel liquidus temperatures to 1600 °C under nonoxidizing conditions. The effect of oxygen on surface tension and wetting angles was verified by statistical analysis using the Kruskal–Wallis test, which supported the results stating that the values of these quantities decreased with increasing oxygen content. Furthermore, liquidus temperatures, which are of practical importance, were determined by the optical and DTA methods and then compared with theoretically calculated temperature values. It turned out that the increased chromium content causes difficulties in determining surface tension up to 1550 °C due to the formation of a thin Cr(2)O(3) layer. In addition, SEM and XRD analyses accompanied by calculations in the FactSage oxide database were performed to better understand the wetting mechanism.
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spelling pubmed-88759852022-02-26 The Effect of Trace Oxygen Addition on the Interface Behavior of Low-Alloy Steel Novák, Vlastimil Řeháčková, Lenka Váňová, Petra Sniegoň, Michal Matýsek, Dalibor Konečná, Kateřina Smetana, Bedřich Rosypalová, Silvie Tkadlečková, Markéta Drozdová, Ľubomíra Klus, Petr Materials (Basel) Article This work aims to assess the effect of an oxygen content graded in minimal quantities, on the order of hundreds of ppms, on the determination of surface tension of low-alloy FeCOCr and FeCONi steels in contact with a corundum substrate. Oxygen, as a surface-active element, was segregated at the surface where it interacted with the major components of the alloys, leading to a reduction in surface tension. The sessile drop method was used for wetting tests in the temperature range from steel liquidus temperatures to 1600 °C under nonoxidizing conditions. The effect of oxygen on surface tension and wetting angles was verified by statistical analysis using the Kruskal–Wallis test, which supported the results stating that the values of these quantities decreased with increasing oxygen content. Furthermore, liquidus temperatures, which are of practical importance, were determined by the optical and DTA methods and then compared with theoretically calculated temperature values. It turned out that the increased chromium content causes difficulties in determining surface tension up to 1550 °C due to the formation of a thin Cr(2)O(3) layer. In addition, SEM and XRD analyses accompanied by calculations in the FactSage oxide database were performed to better understand the wetting mechanism. MDPI 2022-02-20 /pmc/articles/PMC8875985/ /pubmed/35208132 http://dx.doi.org/10.3390/ma15041592 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
Novák, Vlastimil
Řeháčková, Lenka
Váňová, Petra
Sniegoň, Michal
Matýsek, Dalibor
Konečná, Kateřina
Smetana, Bedřich
Rosypalová, Silvie
Tkadlečková, Markéta
Drozdová, Ľubomíra
Klus, Petr
The Effect of Trace Oxygen Addition on the Interface Behavior of Low-Alloy Steel
title The Effect of Trace Oxygen Addition on the Interface Behavior of Low-Alloy Steel
title_full The Effect of Trace Oxygen Addition on the Interface Behavior of Low-Alloy Steel
title_fullStr The Effect of Trace Oxygen Addition on the Interface Behavior of Low-Alloy Steel
title_full_unstemmed The Effect of Trace Oxygen Addition on the Interface Behavior of Low-Alloy Steel
title_short The Effect of Trace Oxygen Addition on the Interface Behavior of Low-Alloy Steel
title_sort effect of trace oxygen addition on the interface behavior of low-alloy steel
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8875985/
https://www.ncbi.nlm.nih.gov/pubmed/35208132
http://dx.doi.org/10.3390/ma15041592
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