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Effect of Reactive SPS on the Microstructure and Properties of a Dual-Phase Ni-Al Intermetallic Compound and Ni-Al-TiB(2) Composite

As part of the tests, a two-phase NiAl/Ni(3)Al alloy and a composite based on this alloy with 4 vol% addition of TiB(2) were produced by the reactive FAST/SPS (Field Assisted Sintering Technology/Spark Plasma Sintering) sintering method. The sintering process was carried out at 1273 K for 30 s under...

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Autores principales: Hyjek, Paweł, Sulima, Iwona, Malczewski, Piotr, Bryła, Krzysztof, Jaworska, Lucyna
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7763236/
https://www.ncbi.nlm.nih.gov/pubmed/33322570
http://dx.doi.org/10.3390/ma13245668
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author Hyjek, Paweł
Sulima, Iwona
Malczewski, Piotr
Bryła, Krzysztof
Jaworska, Lucyna
author_facet Hyjek, Paweł
Sulima, Iwona
Malczewski, Piotr
Bryła, Krzysztof
Jaworska, Lucyna
author_sort Hyjek, Paweł
collection PubMed
description As part of the tests, a two-phase NiAl/Ni(3)Al alloy and a composite based on this alloy with 4 vol% addition of TiB(2) were produced by the reactive FAST/SPS (Field Assisted Sintering Technology/Spark Plasma Sintering) sintering method. The sintering process was carried out at 1273 K for 30 s under an argon atmosphere. The effect of reactive SPS on the density, microstructure, and mechanical and tribological properties of a dual-phase Ni-Al intermetallic compound and Ni-Al-TiB(2) composite was investigated. Products obtained were characterized by a high degree of sintering (over 99% of the theoretical density). The microstructure of sinters was characterized by a large diversity, mainly in regard to the structure of the dual-phase alloy (matrix). Compression tests showed satisfactory plastic properties of the manufactured materials, especially at high temperature (1073 K). For both materials at room temperature, the compressive strength was over 3 GPa. The stress–strain curves were observed to assume a different course for the matrix material and composite material, including differences in the maximum plastic flow stress depending on the test temperature. The brittle-to-ductile transition temperature was determined to be above 873 K. The research has revealed differences in the physical, mechanical and tribological properties of the produced sinters. However, the differences favourable for the composite were mostly the result of the addition of TiB(2) ceramic particles uniformly distributed on grain boundaries.
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spelling pubmed-77632362020-12-27 Effect of Reactive SPS on the Microstructure and Properties of a Dual-Phase Ni-Al Intermetallic Compound and Ni-Al-TiB(2) Composite Hyjek, Paweł Sulima, Iwona Malczewski, Piotr Bryła, Krzysztof Jaworska, Lucyna Materials (Basel) Article As part of the tests, a two-phase NiAl/Ni(3)Al alloy and a composite based on this alloy with 4 vol% addition of TiB(2) were produced by the reactive FAST/SPS (Field Assisted Sintering Technology/Spark Plasma Sintering) sintering method. The sintering process was carried out at 1273 K for 30 s under an argon atmosphere. The effect of reactive SPS on the density, microstructure, and mechanical and tribological properties of a dual-phase Ni-Al intermetallic compound and Ni-Al-TiB(2) composite was investigated. Products obtained were characterized by a high degree of sintering (over 99% of the theoretical density). The microstructure of sinters was characterized by a large diversity, mainly in regard to the structure of the dual-phase alloy (matrix). Compression tests showed satisfactory plastic properties of the manufactured materials, especially at high temperature (1073 K). For both materials at room temperature, the compressive strength was over 3 GPa. The stress–strain curves were observed to assume a different course for the matrix material and composite material, including differences in the maximum plastic flow stress depending on the test temperature. The brittle-to-ductile transition temperature was determined to be above 873 K. The research has revealed differences in the physical, mechanical and tribological properties of the produced sinters. However, the differences favourable for the composite were mostly the result of the addition of TiB(2) ceramic particles uniformly distributed on grain boundaries. MDPI 2020-12-11 /pmc/articles/PMC7763236/ /pubmed/33322570 http://dx.doi.org/10.3390/ma13245668 Text en © 2020 by the authors. 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 (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Hyjek, Paweł
Sulima, Iwona
Malczewski, Piotr
Bryła, Krzysztof
Jaworska, Lucyna
Effect of Reactive SPS on the Microstructure and Properties of a Dual-Phase Ni-Al Intermetallic Compound and Ni-Al-TiB(2) Composite
title Effect of Reactive SPS on the Microstructure and Properties of a Dual-Phase Ni-Al Intermetallic Compound and Ni-Al-TiB(2) Composite
title_full Effect of Reactive SPS on the Microstructure and Properties of a Dual-Phase Ni-Al Intermetallic Compound and Ni-Al-TiB(2) Composite
title_fullStr Effect of Reactive SPS on the Microstructure and Properties of a Dual-Phase Ni-Al Intermetallic Compound and Ni-Al-TiB(2) Composite
title_full_unstemmed Effect of Reactive SPS on the Microstructure and Properties of a Dual-Phase Ni-Al Intermetallic Compound and Ni-Al-TiB(2) Composite
title_short Effect of Reactive SPS on the Microstructure and Properties of a Dual-Phase Ni-Al Intermetallic Compound and Ni-Al-TiB(2) Composite
title_sort effect of reactive sps on the microstructure and properties of a dual-phase ni-al intermetallic compound and ni-al-tib(2) composite
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7763236/
https://www.ncbi.nlm.nih.gov/pubmed/33322570
http://dx.doi.org/10.3390/ma13245668
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