Mechanical and corrosion properties of iron-mangan materials sintered in the presence of plasma
The current trend in development of new metallic materials for certain types of implants is turning away from permanent, biologically inert materials to the use of biodegradable materials. Fe–Mn alloys represent high perspective material for development of new generation of temporary and biodegradab...
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doaj-f0f01bf7b73441ffb74cffa1310a48d92021-09-05T21:02:08ZcesSciendoKoroze a Ochrana Materialu1804-12132020-03-0164111010.2478/kom-2020-0001kom-2020-0001Mechanical and corrosion properties of iron-mangan materials sintered in the presence of plasmaOrságová Králová Z.0Kupková M.1Hrubovčáková M.2Zeleňák A.3Oriňaková R.4Morovská Turoňová A.5Žáková K.6Kupka M.7Kovaľ K.8Šišoláková I.9Katedra fyzikálnej chémie, Univerzita P. J. Šafárika v Košiciach, Košice, Slovenská republikaÚstav materiálového výskumu, Slovenská akadémia vied, Košice, Slovenská republikaÚstav materiálového výskumu, Slovenská akadémia vied, Košice, Slovenská republikaÚstav materiálového výskumu, Slovenská akadémia vied, Košice, Slovenská republikaKatedra fyzikálnej chémie, Univerzita P. J. Šafárika v Košiciach, Košice, Slovenská republikaÚstav materiálového výskumu, Slovenská akadémia vied, Košice, Slovenská republikaÚstav experimentálnej fyziky, Slovenská akadémia vied, Košice, Slovenská republikaÚstav experimentálnej fyziky, Slovenská akadémia vied, Košice, Slovenská republikaÚstav materiálového výskumu, Slovenská akadémia vied, Košice, Slovenská republikaKatedra fyzikálnej chémie, Univerzita P. J. Šafárika v Košiciach, Košice, Slovenská republikaThe current trend in development of new metallic materials for certain types of implants is turning away from permanent, biologically inert materials to the use of biodegradable materials. Fe–Mn alloys represent high perspective material for development of new generation of temporary and biodegradable implants. The aim of this work was to study mechanical and corrosion characteristics of powder samples containing 25, 30 and 35 wt % of Mn which are fabricated by pressing, sintering, and additional spark plasma sintering. The influence of preparation method (pressing and sintering) to microstructure, phased composition and corrosion behavior of prepared alloys was studied.https://doi.org/10.2478/kom-2020-0001 |
collection |
DOAJ |
language |
ces |
format |
Article |
sources |
DOAJ |
author |
Orságová Králová Z. Kupková M. Hrubovčáková M. Zeleňák A. Oriňaková R. Morovská Turoňová A. Žáková K. Kupka M. Kovaľ K. Šišoláková I. |
spellingShingle |
Orságová Králová Z. Kupková M. Hrubovčáková M. Zeleňák A. Oriňaková R. Morovská Turoňová A. Žáková K. Kupka M. Kovaľ K. Šišoláková I. Mechanical and corrosion properties of iron-mangan materials sintered in the presence of plasma Koroze a Ochrana Materialu |
author_facet |
Orságová Králová Z. Kupková M. Hrubovčáková M. Zeleňák A. Oriňaková R. Morovská Turoňová A. Žáková K. Kupka M. Kovaľ K. Šišoláková I. |
author_sort |
Orságová Králová Z. |
title |
Mechanical and corrosion properties of iron-mangan materials sintered in the presence of plasma |
title_short |
Mechanical and corrosion properties of iron-mangan materials sintered in the presence of plasma |
title_full |
Mechanical and corrosion properties of iron-mangan materials sintered in the presence of plasma |
title_fullStr |
Mechanical and corrosion properties of iron-mangan materials sintered in the presence of plasma |
title_full_unstemmed |
Mechanical and corrosion properties of iron-mangan materials sintered in the presence of plasma |
title_sort |
mechanical and corrosion properties of iron-mangan materials sintered in the presence of plasma |
publisher |
Sciendo |
series |
Koroze a Ochrana Materialu |
issn |
1804-1213 |
publishDate |
2020-03-01 |
description |
The current trend in development of new metallic materials for certain types of implants is turning away from permanent, biologically inert materials to the use of biodegradable materials. Fe–Mn alloys represent high perspective material for development of new generation of temporary and biodegradable implants. The aim of this work was to study mechanical and corrosion characteristics of powder samples containing 25, 30 and 35 wt % of Mn which are fabricated by pressing, sintering, and additional spark plasma sintering. The influence of preparation method (pressing and sintering) to microstructure, phased composition and corrosion behavior of prepared alloys was studied. |
url |
https://doi.org/10.2478/kom-2020-0001 |
work_keys_str_mv |
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