Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Magnetic field radiation energy ceramic
The invention relates to magnetic field radiation energy ceramic. The magnetic field radiation energy ceramic solves the problem that preparation difficulty is high and the device produced by the prior art has non-uniform radiation wavelengths and does not satisfy human body beneficial radiation wavelength requirements because of no control of technical stability. Through a temperature control process, the ceramic structure is stable and the problems of easy layering, peeling and fracture are solved. Alumina, silica, copper oxide, magnesium oxide, ferric oxide and titanium dioxide raw materials are mixed and processed to form a blank, the blank is molded, is discharged from a mold and is sintered, and the sintered blank is coated with silver and then is dried or is coated with aluminum and then is dried so that the energy ceramic is obtained. Through an appropriate material ratio and process temperature control, the produced ceramic has stable performances and a small volume, has a fast heating rate and does not produce layering and peeling. The formula of the magnetic field radiation energy ceramic has good reasonability, materials are saved, better effects are obtained and substantial benefits for health care and medical fields are obtained.
Magnetic field radiation energy ceramic
The invention relates to magnetic field radiation energy ceramic. The magnetic field radiation energy ceramic solves the problem that preparation difficulty is high and the device produced by the prior art has non-uniform radiation wavelengths and does not satisfy human body beneficial radiation wavelength requirements because of no control of technical stability. Through a temperature control process, the ceramic structure is stable and the problems of easy layering, peeling and fracture are solved. Alumina, silica, copper oxide, magnesium oxide, ferric oxide and titanium dioxide raw materials are mixed and processed to form a blank, the blank is molded, is discharged from a mold and is sintered, and the sintered blank is coated with silver and then is dried or is coated with aluminum and then is dried so that the energy ceramic is obtained. Through an appropriate material ratio and process temperature control, the produced ceramic has stable performances and a small volume, has a fast heating rate and does not produce layering and peeling. The formula of the magnetic field radiation energy ceramic has good reasonability, materials are saved, better effects are obtained and substantial benefits for health care and medical fields are obtained.
Magnetic field radiation energy ceramic
WANG XIANGLIN (Autor:in) / WANG XIAOYAN (Autor:in)
10.02.2016
Patent
Elektronische Ressource
Englisch
IPC:
C04B
Kalk
,
LIME
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