High-temperature magnetocaloric effect in devitrified Fe/Co based glassy monolayer and bilayer ribbons
IR@NML: CSIR-National Metallurgical Laboratory, Jamshedpur
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Title |
High-temperature magnetocaloric effect in devitrified Fe/Co based glassy monolayer and bilayer ribbons
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Creator |
Dey, S
Roy, R K Mallick, A B Mitra, A Panda, A K |
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Subject |
Magnetic Properties
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Description |
Rapidly quenched Co- and Fe-based monolayer and their bilayer prepared through double nozzle technique have been characterized to investigate its microstructural and magnetic properties and their possibility as high-temperature magnetocaloric material. The Co- and Fe-based monolayer ribbons displayed Curie temperatures (T-C) of 463K and 700K, respectively. Magnetic entropy change S-M of the bilayer was measured at a low magnetizing field of 1T in the temperature spans covering separately for T-C of Co- and Fe-based ribbons corresponding to separate entropy at low- and high-temperature regime. The S-M value at T-C of Fe-based ribbon displayed values in the span of 1.13-1.71Jkg(-1)K(-1) in their monolayer and bilayer state. On incipient nanocrystallisation at 773K, the S-M and refrigerant capacity (RC) around T-C of cobalt-based bilayer ribbon revealed comparable values as in their as-quenched state. However, nanocrystallisation elevated the S-M of bilayer across T-C of the Fe-based regime to a high value close to 4.6Jkg(-1)K(-1) with a fairly elevated RC of 96Jkg(-1). The enhanced S-M associated with the formation of Fe-based nanocrystallites is evidenced through transmission electron microscopy. The interdiffusion of ferromagnetic elements Fe and Co is also supposed to elevate the S-M as well as the RC of the glassy system in the bilayer ribbons.
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Publisher |
Springer
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Date |
2019-08
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Type |
Article
PeerReviewed |
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Relation |
https://doi.org/10.1007/s10853-019-03684-5
http://eprints.nmlindia.org/7918/ |
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Identifier |
Dey, S and Roy, R K and Mallick, A B and Mitra, A and Panda, A K (2019) High-temperature magnetocaloric effect in devitrified Fe/Co based glassy monolayer and bilayer ribbons. Journal of Materials Science, 54(16) . pp. 11292-11303.
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