Microstructure evolution and thermal stability of rapidly solidified Al-Ni-Co-RE alloy

Microstructure evolution and thermal stability of rapidly solidified Al-Ni-Co-RE alloy

In the frame of this work, Al-5Ni-1Co-3RE (RE-Rare Earth (Mischmetal)) rapidly solidified ribbons were manufactured and analyzed. The morphology of the as-cast structure, as well as the microstructural features were analyzed by transmission electron microscopy (TEM) and scanning electron microscopy...

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Main Authors: B. Karpe, A. Nagode, B. Kosec, A. Stoić, M. Dolenec, M. Bizjak
Format: Article
Language:English
Published: Croatian Metallurgical Society 2013-07-01
Series:Metalurgija
Subjects:
rapid solidification
metallic materials
heat transfer
precipitation
electrical resistivity measurement
Online Access:http://hrcak.srce.hr/file/140926
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spelling doaj-87e3ba2253e4496dad9d398bb4139da02020-11-25T00:52:26ZengCroatian Metallurgical SocietyMetalurgija0543-58461334-25762013-07-01523305308Microstructure evolution and thermal stability of rapidly solidified Al-Ni-Co-RE alloy B. KarpeA. NagodeB. KosecA. StoićM. DolenecM. BizjakIn the frame of this work, Al-5Ni-1Co-3RE (RE-Rare Earth (Mischmetal)) rapidly solidified ribbons were manufactured and analyzed. The morphology of the as-cast structure, as well as the microstructural features were analyzed by transmission electron microscopy (TEM) and scanning electron microscopy (SEM). Thermal stability has been investigated by combination of four point scanning electrical resistivity measurement (ER), differential scanning calorimetry (DSC) and microhardness measurement. From the results we can conclude, that Al-5Ni-1Co-3RE rapidly solidified alloys have good thermal stability due to very slow coarsening kinetics of precipitated particles.http://hrcak.srce.hr/file/140926rapid solidificationmetallic materialsheat transferprecipitationelectrical resistivity measurement
collection DOAJ
language English
format Article
sources DOAJ
author B. Karpe
A. Nagode
B. Kosec
A. Stoić
M. Dolenec
M. Bizjak
spellingShingle B. Karpe
A. Nagode
B. Kosec
A. Stoić
M. Dolenec
M. Bizjak
Microstructure evolution and thermal stability of rapidly solidified Al-Ni-Co-RE alloy
Metalurgija
rapid solidification
metallic materials
heat transfer
precipitation
electrical resistivity measurement
author_facet B. Karpe
A. Nagode
B. Kosec
A. Stoić
M. Dolenec
M. Bizjak
author_sort B. Karpe
title Microstructure evolution and thermal stability of rapidly solidified Al-Ni-Co-RE alloy
title_short Microstructure evolution and thermal stability of rapidly solidified Al-Ni-Co-RE alloy
title_full Microstructure evolution and thermal stability of rapidly solidified Al-Ni-Co-RE alloy
title_fullStr Microstructure evolution and thermal stability of rapidly solidified Al-Ni-Co-RE alloy
title_full_unstemmed Microstructure evolution and thermal stability of rapidly solidified Al-Ni-Co-RE alloy
title_sort microstructure evolution and thermal stability of rapidly solidified al-ni-co-re alloy
publisher Croatian Metallurgical Society
series Metalurgija
issn 0543-5846
1334-2576
publishDate 2013-07-01
description In the frame of this work, Al-5Ni-1Co-3RE (RE-Rare Earth (Mischmetal)) rapidly solidified ribbons were manufactured and analyzed. The morphology of the as-cast structure, as well as the microstructural features were analyzed by transmission electron microscopy (TEM) and scanning electron microscopy (SEM). Thermal stability has been investigated by combination of four point scanning electrical resistivity measurement (ER), differential scanning calorimetry (DSC) and microhardness measurement. From the results we can conclude, that Al-5Ni-1Co-3RE rapidly solidified alloys have good thermal stability due to very slow coarsening kinetics of precipitated particles.
topic rapid solidification
metallic materials
heat transfer
precipitation
electrical resistivity measurement
url http://hrcak.srce.hr/file/140926
work_keys_str_mv AT bkarpe microstructureevolutionandthermalstabilityofrapidlysolidifiedalnicorealloy
AT anagode microstructureevolutionandthermalstabilityofrapidlysolidifiedalnicorealloy
AT bkosec microstructureevolutionandthermalstabilityofrapidlysolidifiedalnicorealloy
AT astoic microstructureevolutionandthermalstabilityofrapidlysolidifiedalnicorealloy
AT mdolenec microstructureevolutionandthermalstabilityofrapidlysolidifiedalnicorealloy
AT mbizjak microstructureevolutionandthermalstabilityofrapidlysolidifiedalnicorealloy
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