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Microstructure Development and Properties of the Two-Component Melt-Spun Ni55Fe20Cu5P10B10 Alloy at Elevated Temperatures

The aim of this work was to investigate the features of microstructure, phase composition, mechanical properties, and thermal stability of the two-component melt-spun Ni55Fe20Cu5P10B10 alloy. The development of the microstructure after heating to elevated temperatures was studied using scanning elec...

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Published in:	Materials 2021-04, Vol.14 (7), p.1741
Main Authors:	Ziewiec, Krzysztof, Wojciechowska, Mirosława, Jankowska-Sumara, Irena, Ziewiec, Aneta, Kąc, Sławomir
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Language:	English
Subjects:	Alloys Composite materials Crucibles Diffraction Heating High temperature Mechanical properties Melt spinning Microstructure Nickel base alloys Phase composition Plastic deformation Radiation Temperature Thermal analysis Thermal stability Thermodynamic properties
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creator	Ziewiec, Krzysztof Wojciechowska, Mirosława Jankowska-Sumara, Irena Ziewiec, Aneta Kąc, Sławomir
description	The aim of this work was to investigate the features of microstructure, phase composition, mechanical properties, and thermal stability of the two-component melt-spun Ni55Fe20Cu5P10B10 alloy. The development of the microstructure after heating to elevated temperatures was studied using scanning electron microscope and in situ high temperature X-ray diffraction. The high-temperature behavior of the two-component melt-spun Ni55Fe20Cu5P10B10 alloy and Ni40Fe40B20, Ni70Cu10P20, and Ni55Fe20Cu5P10B10 alloys melt-spun from single-chamber crucible was investigated using differential scanning calorymetry at different heating rates and by dynamic mechanical thermal analysis. The results show that band-like microstructure of the composite alloy is stable even at 800 K, although coarsening of bands forming the microstructure of the ribbons is observed above 550 K. Plastic deformation is observed in the composite previously heated to temperatures of 600–650 K. The properties of the composite alloy are generally different than the properties obtained for the melt-spun alloy of the same average nominal composition produced traditionally. Additionally, the mechanical and the thermal properties in this composite are inherited from the amorphous state of alloys that are precursors for two-component melt spinning (TCMS) processing.
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source	Publicly Available Content Database; Full-Text Journals in Chemistry (Open access); PubMed Central
subjects	Alloys Composite materials Crucibles Diffraction Heating High temperature Mechanical properties Melt spinning Microstructure Nickel base alloys Phase composition Plastic deformation Radiation Temperature Thermal analysis Thermal stability Thermodynamic properties
title	Microstructure Development and Properties of the Two-Component Melt-Spun Ni55Fe20Cu5P10B10 Alloy at Elevated Temperatures
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