10.1007/s003390101034Applied Physics A: Materials Science and Processing754535-539APAM
Structural features, magnetic properties and magnetocaloric effect of pure Gd ribbons prepared by me...
An accurate calculation of the different magnetocaloric-related magnitudes derived from the temperat...
The magnetocaloric effect (MCE) of melt-spun Fe64Mn15-xCoxSi10B11 amorphous alloys with x = 0, 0.2, ...
The Gd(95)Pe(2.8)Al(2.2) amorphous/nanocrystalline composite was obtained by melt spinning. A full w...
The magnetocaloric properties of deformed and milled Gd ribbons were carefully ana-lyzed. The maximu...
The magnetocaloric properties of Gd ribbons processed by different kinds of mechanical treatments su...
The field dependence of the magnetic entropy change of ferromagnetic lanthanide-based materials has ...
We report on the magnetocaloric effect in an Fe-based metallic glass (Fe80B12Nb8) as compared to the...
We report on the magnetocaloric effect in an Fe-based metallic glass (Fe80B12Nb8) as compared to the...
We report on the magnetocaloric effect in an Fe-based metallic glass (Fe80B12Nb8) as compared to the...
The Finemet type amorphous alloys are well known as high frequency soft magnetic materials. They hav...
International audienceThe series of glassy ribbons Gd60M30In10 (M = Mn, Co, Ni, Cu) was synthesized ...
The magnetocaloric effect may be assessed indirectly by expressing it as the change in magnetic entr...
The series of glassy ribbons Gd60M30In10 (M = Mn, Co, Ni, Cu) was synthesized by melt-spinning. The ...
The magnetocaloric effect may be assessed indirectly by expressing it as the change in magnetic entr...
Structural features, magnetic properties and magnetocaloric effect of pure Gd ribbons prepared by me...
An accurate calculation of the different magnetocaloric-related magnitudes derived from the temperat...
The magnetocaloric effect (MCE) of melt-spun Fe64Mn15-xCoxSi10B11 amorphous alloys with x = 0, 0.2, ...
The Gd(95)Pe(2.8)Al(2.2) amorphous/nanocrystalline composite was obtained by melt spinning. A full w...
The magnetocaloric properties of deformed and milled Gd ribbons were carefully ana-lyzed. The maximu...
The magnetocaloric properties of Gd ribbons processed by different kinds of mechanical treatments su...
The field dependence of the magnetic entropy change of ferromagnetic lanthanide-based materials has ...
We report on the magnetocaloric effect in an Fe-based metallic glass (Fe80B12Nb8) as compared to the...
We report on the magnetocaloric effect in an Fe-based metallic glass (Fe80B12Nb8) as compared to the...
We report on the magnetocaloric effect in an Fe-based metallic glass (Fe80B12Nb8) as compared to the...
The Finemet type amorphous alloys are well known as high frequency soft magnetic materials. They hav...
International audienceThe series of glassy ribbons Gd60M30In10 (M = Mn, Co, Ni, Cu) was synthesized ...
The magnetocaloric effect may be assessed indirectly by expressing it as the change in magnetic entr...
The series of glassy ribbons Gd60M30In10 (M = Mn, Co, Ni, Cu) was synthesized by melt-spinning. The ...
The magnetocaloric effect may be assessed indirectly by expressing it as the change in magnetic entr...
Structural features, magnetic properties and magnetocaloric effect of pure Gd ribbons prepared by me...
An accurate calculation of the different magnetocaloric-related magnitudes derived from the temperat...
The magnetocaloric effect (MCE) of melt-spun Fe64Mn15-xCoxSi10B11 amorphous alloys with x = 0, 0.2, ...
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