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Ferromagnetic solid state refrigeration with tunable magnetic characteristics for green energy magnetic device
by
Harb, Mohamed E.
, Alamri, Hatem R.
, Aldhafeeri, Tahani R.
, Hamad, Mahmoud A.
in
Alloys
/ Characterization and Evaluation of Materials
/ Clean energy
/ Condensed Matter Physics
/ Cooling
/ Current loss
/ Ferromagnetism
/ Investigations
/ Machines
/ Magnetic devices
/ Magnetic fields
/ Magnetic properties
/ Manufacturing
/ Nanotechnology
/ Optical and Electronic Materials
/ Physics
/ Physics and Astronomy
/ Processes
/ Refrigeration
/ Room temperature
/ Software
/ Surfaces and Interfaces
/ Temperature
/ Thin Films
2025
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Ferromagnetic solid state refrigeration with tunable magnetic characteristics for green energy magnetic device
by
Harb, Mohamed E.
, Alamri, Hatem R.
, Aldhafeeri, Tahani R.
, Hamad, Mahmoud A.
in
Alloys
/ Characterization and Evaluation of Materials
/ Clean energy
/ Condensed Matter Physics
/ Cooling
/ Current loss
/ Ferromagnetism
/ Investigations
/ Machines
/ Magnetic devices
/ Magnetic fields
/ Magnetic properties
/ Manufacturing
/ Nanotechnology
/ Optical and Electronic Materials
/ Physics
/ Physics and Astronomy
/ Processes
/ Refrigeration
/ Room temperature
/ Software
/ Surfaces and Interfaces
/ Temperature
/ Thin Films
2025
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Do you wish to request the book?
Ferromagnetic solid state refrigeration with tunable magnetic characteristics for green energy magnetic device
by
Harb, Mohamed E.
, Alamri, Hatem R.
, Aldhafeeri, Tahani R.
, Hamad, Mahmoud A.
in
Alloys
/ Characterization and Evaluation of Materials
/ Clean energy
/ Condensed Matter Physics
/ Cooling
/ Current loss
/ Ferromagnetism
/ Investigations
/ Machines
/ Magnetic devices
/ Magnetic fields
/ Magnetic properties
/ Manufacturing
/ Nanotechnology
/ Optical and Electronic Materials
/ Physics
/ Physics and Astronomy
/ Processes
/ Refrigeration
/ Room temperature
/ Software
/ Surfaces and Interfaces
/ Temperature
/ Thin Films
2025
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Ferromagnetic solid state refrigeration with tunable magnetic characteristics for green energy magnetic device
Journal Article
Ferromagnetic solid state refrigeration with tunable magnetic characteristics for green energy magnetic device
2025
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Overview
The magnetocaloric effect(MCE) of the (Fe
0.5
Cu
0.5
)
60
Zr
40
alloy has been investigated by phenomenological model, estimating magnetic entropy change (∆S
M
) and heat capacity change. The results indicate that MCE of (Fe
0.5
Cu
0.5
)
60
Zr
40
alloy can be controlled and tuned by several magnetic fields. Furthermore, the study of ∆S
M
curves predicts how to expand the temperature range for exploiting (Fe
0.5
Cu
0.5
)
60
Zr
40
in magnetic refrigeration. ∆S
M
reaches a peak of about 0.5 J/Kg K at 112 K with δT
FWHM
= 227 K and RCP = 102 J/Kg under 5 T applied field variation. (Fe
0.5
Cu
0.5
)
60
Zr
40
alloy has a potential application for magnetic refrigerants over a wide temperature range, especially its high electrical resistivity leads to decreased eddy current losses, covering a significant range of temperature between 0 K and room temperature. Therefore, these advantages make (Fe
0.5
Cu
0.5
)
60
Zr
40
alloy potentially practical for efficient cooling devices.
Publisher
Springer Berlin Heidelberg,Springer Nature B.V
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