Add to ORKGThe magnetocaloric effect is the thermal response of a material to an external magnetic field. This manuscript focuses on the physics and the properties of materials which are commonly used for magnetic refrigeration at cryogenic temperatures. After a brief overview of the magnetocaloric effect and associated thermodynamics, typical requirements on refrigerants are discussed from a standpoint of cooling power density optimization. Finally, a compilation of the most important properties of several common magnetocaloric materials is presented
A primary motivation underlying the research on room-temperature magnetic refrigeration is reaching ...
Magnetic refrigeration is an ecofriendly solid state technology employing magnetocaloric materials i...
Magnetic refrigeration is an ecofriendly solid state technology employing magnetocaloric materials i...
The phase‐down scenario of conventional refrigerants used in gas–vapor compressors and the demand fo...
The phase‐down scenario of conventional refrigerants used in gas–vapor compressors and the demand fo...
The phase‐down scenario of conventional refrigerants used in gas–vapor compressors and the demand fo...
Magnetocaloric cooling is currently a prospering field of scientific investigations. Especially in t...
Magnetic cooling is an emerging refrigeration technology with potential to surpass the performance o...
In this study, magnetic and electromagnetic energy conversion of magnetocaloric materials (MCMs) and...
The microstructural modification of existing materials for magnetic cooling applications, and mass f...
Magnetic refrigeration is an ecofriendly solid state technology employing magnetocaloric materials i...
A primary motivation underlying the research on room-temperature magnetic refrigeration is reaching ...
Magnetic refrigeration based on the magnetocaloric effect (MCE) of materials is a potential techniqu...
The refrigerant capacity (RC) of magnetocaloric materials can be enhanced using multiphase materials...
A primary motivation underlying the research on room-temperature magnetic refrigeration is reaching ...
A primary motivation underlying the research on room-temperature magnetic refrigeration is reaching ...
Magnetic refrigeration is an ecofriendly solid state technology employing magnetocaloric materials i...
Magnetic refrigeration is an ecofriendly solid state technology employing magnetocaloric materials i...
The phase‐down scenario of conventional refrigerants used in gas–vapor compressors and the demand fo...
The phase‐down scenario of conventional refrigerants used in gas–vapor compressors and the demand fo...
The phase‐down scenario of conventional refrigerants used in gas–vapor compressors and the demand fo...
Magnetocaloric cooling is currently a prospering field of scientific investigations. Especially in t...
Magnetic cooling is an emerging refrigeration technology with potential to surpass the performance o...
In this study, magnetic and electromagnetic energy conversion of magnetocaloric materials (MCMs) and...
The microstructural modification of existing materials for magnetic cooling applications, and mass f...
Magnetic refrigeration is an ecofriendly solid state technology employing magnetocaloric materials i...
A primary motivation underlying the research on room-temperature magnetic refrigeration is reaching ...
Magnetic refrigeration based on the magnetocaloric effect (MCE) of materials is a potential techniqu...
The refrigerant capacity (RC) of magnetocaloric materials can be enhanced using multiphase materials...
A primary motivation underlying the research on room-temperature magnetic refrigeration is reaching ...
A primary motivation underlying the research on room-temperature magnetic refrigeration is reaching ...
Magnetic refrigeration is an ecofriendly solid state technology employing magnetocaloric materials i...
Magnetic refrigeration is an ecofriendly solid state technology employing magnetocaloric materials i...