The Pressure Compaction of Zr-Nb Powder Mixtures and Selected Properties of Sintered and KOBO-Extruded Zr-xNb Materials

The Pressure Compaction of Zr-Nb Powder Mixtures and Selected Properties of Sintered and KOBO-Extruded Zr-xNb Materials

Materials were obtained from commercial zirconium powders. 1 mass%, 2.5 mass% and 16 mass% of niobium powders were used as the reinforcing phase. The SPS method and the extrusion method classified as the SPD method were used. Relative density materials of up to 98% were obtained. The microstructure...

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Main Authors: Lucyna Jaworska, Tomasz Skrzekut, Michał Stępień, Paweł Pałka, Grzegorz Boczkal, Adam Zwoliński, Piotr Noga, Marcin Podsiadło, Radosław Wnuk, Paweł Ostachowski
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Materials
Subjects:
zirconium powders
SPS
severe plastic deformation
relative density
hardness
phase composition
Online Access:https://www.mdpi.com/1996-1944/14/12/3172
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spelling doaj-70f19bf8b2da4e5b99ec263877a534872021-06-30T23:43:07ZengMDPI AGMaterials1996-19442021-06-01143172317210.3390/ma14123172The Pressure Compaction of Zr-Nb Powder Mixtures and Selected Properties of Sintered and KOBO-Extruded Zr-xNb MaterialsLucyna Jaworska0Tomasz Skrzekut1Michał Stępień2Paweł Pałka3Grzegorz Boczkal4Adam Zwoliński5Piotr Noga6Marcin Podsiadło7Radosław Wnuk8Paweł Ostachowski9Faculty of Non-Ferrous Metals, AGH University of Science and Technology, 30-059 Krakow, PolandFaculty of Non-Ferrous Metals, AGH University of Science and Technology, 30-059 Krakow, PolandFaculty of Non-Ferrous Metals, AGH University of Science and Technology, 30-059 Krakow, PolandFaculty of Non-Ferrous Metals, AGH University of Science and Technology, 30-059 Krakow, PolandFaculty of Non-Ferrous Metals, AGH University of Science and Technology, 30-059 Krakow, PolandFaculty of Non-Ferrous Metals, AGH University of Science and Technology, 30-059 Krakow, PolandFaculty of Non-Ferrous Metals, AGH University of Science and Technology, 30-059 Krakow, PolandŁukasiewicz Research Network—Krakow Institute of Technology, 30-418 Krakow, PolandFaculty of Non-Ferrous Metals, AGH University of Science and Technology, 30-059 Krakow, PolandFaculty of Non-Ferrous Metals, AGH University of Science and Technology, 30-059 Krakow, PolandMaterials were obtained from commercial zirconium powders. 1 mass%, 2.5 mass% and 16 mass% of niobium powders were used as the reinforcing phase. The SPS method and the extrusion method classified as the SPD method were used. Relative density materials of up to 98% were obtained. The microstructure of the sintered Zr-xNb materials differs from that of the extruded materials. Due to the flammability of zirconium powders, no mechanical alloying was used; only mixing of zirconium and niobium powders in water and isopropyl alcohol. Niobium was grouped in clusters with an average niobium particle size of about 10 μm up to 20 μm. According to the Zr-Nb phase equilibrium system, the stable phase at RT was the hexagonal α-phase. The tests were carried out for materials without the additional annealing process. The effect of niobium as a β-Zr phase stabilizer is confirmed by XRD. Materials differed in their phase composition, and for both methods the β-Zr phase was present in obtained materials. A very favorable effect of niobium on the increase in corrosion resistance was observed, compared to the material obtained from the powder without the addition of niobium.https://www.mdpi.com/1996-1944/14/12/3172zirconium powdersSPSsevere plastic deformationrelative densityhardnessphase composition
collection DOAJ
language English
format Article
sources DOAJ
author Lucyna Jaworska
Tomasz Skrzekut
Michał Stępień
Paweł Pałka
Grzegorz Boczkal
Adam Zwoliński
Piotr Noga
Marcin Podsiadło
Radosław Wnuk
Paweł Ostachowski
spellingShingle Lucyna Jaworska
Tomasz Skrzekut
Michał Stępień
Paweł Pałka
Grzegorz Boczkal
Adam Zwoliński
Piotr Noga
Marcin Podsiadło
Radosław Wnuk
Paweł Ostachowski
The Pressure Compaction of Zr-Nb Powder Mixtures and Selected Properties of Sintered and KOBO-Extruded Zr-xNb Materials
Materials
zirconium powders
SPS
severe plastic deformation
relative density
hardness
phase composition
author_facet Lucyna Jaworska
Tomasz Skrzekut
Michał Stępień
Paweł Pałka
Grzegorz Boczkal
Adam Zwoliński
Piotr Noga
Marcin Podsiadło
Radosław Wnuk
Paweł Ostachowski
author_sort Lucyna Jaworska
title The Pressure Compaction of Zr-Nb Powder Mixtures and Selected Properties of Sintered and KOBO-Extruded Zr-xNb Materials
title_short The Pressure Compaction of Zr-Nb Powder Mixtures and Selected Properties of Sintered and KOBO-Extruded Zr-xNb Materials
title_full The Pressure Compaction of Zr-Nb Powder Mixtures and Selected Properties of Sintered and KOBO-Extruded Zr-xNb Materials
title_fullStr The Pressure Compaction of Zr-Nb Powder Mixtures and Selected Properties of Sintered and KOBO-Extruded Zr-xNb Materials
title_full_unstemmed The Pressure Compaction of Zr-Nb Powder Mixtures and Selected Properties of Sintered and KOBO-Extruded Zr-xNb Materials
title_sort pressure compaction of zr-nb powder mixtures and selected properties of sintered and kobo-extruded zr-xnb materials
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2021-06-01
description Materials were obtained from commercial zirconium powders. 1 mass%, 2.5 mass% and 16 mass% of niobium powders were used as the reinforcing phase. The SPS method and the extrusion method classified as the SPD method were used. Relative density materials of up to 98% were obtained. The microstructure of the sintered Zr-xNb materials differs from that of the extruded materials. Due to the flammability of zirconium powders, no mechanical alloying was used; only mixing of zirconium and niobium powders in water and isopropyl alcohol. Niobium was grouped in clusters with an average niobium particle size of about 10 μm up to 20 μm. According to the Zr-Nb phase equilibrium system, the stable phase at RT was the hexagonal α-phase. The tests were carried out for materials without the additional annealing process. The effect of niobium as a β-Zr phase stabilizer is confirmed by XRD. Materials differed in their phase composition, and for both methods the β-Zr phase was present in obtained materials. A very favorable effect of niobium on the increase in corrosion resistance was observed, compared to the material obtained from the powder without the addition of niobium.
topic zirconium powders
SPS
severe plastic deformation
relative density
hardness
phase composition
url https://www.mdpi.com/1996-1944/14/12/3172
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