Add to ORKGLa(Fe, Si)(13)-based alloys have attracted more and more attention, for they exhibit giant magnetocaloric effects. In order to broaden their magnetic refrigeration temperatureranges, achieving a series of La(Fe, Si)(13)-based alloys with different magnetic phase transition temperatures is of great significance. Unlike the traditional research method, in this paper, a high-throughput first-principles computation is performed to estimate the magnetic phase transition temperature of the LaFe11.5Si1.5-based alloy by employing AMS-BAND software and the mean field theory. We investigate the effects of doping Mn, Co, Ni, Al atoms and Fe-vacancies on the magnetic phase transition temperature of LaFe11.5Si1.5-based alloy, and give the phase diagrams...
The magnetocaloric effect (MCE) is a magneto-thermodynamic phenomenon in which a temperature change ...
The aim of this paper was to study the influence of partial substitution of Fe by Mn in the $LaFe_{1...
Advanced magnetic refrigerants such as La(Fe,Si)13 materials require large entropy and adiabatic tem...
The microstructure, phase constitution and magnetocaloric properties of non-stoichiometric La1.7Fe11...
Fully hydrogenated Mn containing LaFeSi alloys provide long time stability of attractive magnetocalo...
Fully hydrogenated Mn containing LaFeSi alloys provide long time stability of attractive magnetocalo...
Fully hydrogenated Mn containing LaFeSi alloys provide long time stability of attractive magnetocalo...
The influence of partial substitution of mischmetal on the structure, Curie temperature and magnetoc...
La(Fe,Si)13-based compounds are extremely promising for use in magnetocaloric cooling applications. ...
The LaFe13-xSix type magnetic refrigeration material exhibits a large Delta S-M but in a narrow temp...
In this work, we study the effect of Ni substitution on the magnetocaloric properties of La(Fe,Si)13...
Magnetic refrigeration at around ambient temperatures has become of considerable technical and comme...
Magnetic refrigeration at around ambient temperatures has become of considerable technical and comme...
The critical content of the substitution element M for Fe in LaFe11.52-xMxSi1.48 (M=Ni/Cr) alloys wa...
The paper presents magnetic parameters of $LaFe_{x}Co_{y}Si_{1.1}$ bulk specimens proving strong mag...
The magnetocaloric effect (MCE) is a magneto-thermodynamic phenomenon in which a temperature change ...
The aim of this paper was to study the influence of partial substitution of Fe by Mn in the $LaFe_{1...
Advanced magnetic refrigerants such as La(Fe,Si)13 materials require large entropy and adiabatic tem...
The microstructure, phase constitution and magnetocaloric properties of non-stoichiometric La1.7Fe11...
Fully hydrogenated Mn containing LaFeSi alloys provide long time stability of attractive magnetocalo...
Fully hydrogenated Mn containing LaFeSi alloys provide long time stability of attractive magnetocalo...
Fully hydrogenated Mn containing LaFeSi alloys provide long time stability of attractive magnetocalo...
The influence of partial substitution of mischmetal on the structure, Curie temperature and magnetoc...
La(Fe,Si)13-based compounds are extremely promising for use in magnetocaloric cooling applications. ...
The LaFe13-xSix type magnetic refrigeration material exhibits a large Delta S-M but in a narrow temp...
In this work, we study the effect of Ni substitution on the magnetocaloric properties of La(Fe,Si)13...
Magnetic refrigeration at around ambient temperatures has become of considerable technical and comme...
Magnetic refrigeration at around ambient temperatures has become of considerable technical and comme...
The critical content of the substitution element M for Fe in LaFe11.52-xMxSi1.48 (M=Ni/Cr) alloys wa...
The paper presents magnetic parameters of $LaFe_{x}Co_{y}Si_{1.1}$ bulk specimens proving strong mag...
The magnetocaloric effect (MCE) is a magneto-thermodynamic phenomenon in which a temperature change ...
The aim of this paper was to study the influence of partial substitution of Fe by Mn in the $LaFe_{1...
Advanced magnetic refrigerants such as La(Fe,Si)13 materials require large entropy and adiabatic tem...