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HIGH EMISSIVITY CERAMIC COMPOSITE FOR NONTHERMAL FAR INFRARED RADIATION
This invention relates to a ceramic composite that may be used for various purposes including for assembly into a therapeutic device for treating a human or animal body with irradiation of nonthermal far infrared (FIR) radiation. More specifically, while all FIR-related prior art is only radiating broadband blackbody thermal radiation, said ceramic composite can emit not only the usual blackbody thermal radiation but also the inventive nonthermal FIR-photon radiation in the 3 - 16 µm wavelength spectrum. As a result, the overall measurable radiation in 8 - 14 µm wavelength range from said ceramic composite has an approximated blackbody temperature that is at least 1 °C higher than the actual temperature of said ceramic composite, signifying an effective emissivity greater than 1.0, while 1.0 emissivity is a theoretical limit assigned to an ideal black body and thus unsurpassable. It is an outcome of adding the 3 - 16 µm band of nonthermal FIR-photon radiation to the continuous 4 - 1,000 µm band of blackbody thermal radiation.
HIGH EMISSIVITY CERAMIC COMPOSITE FOR NONTHERMAL FAR INFRARED RADIATION
This invention relates to a ceramic composite that may be used for various purposes including for assembly into a therapeutic device for treating a human or animal body with irradiation of nonthermal far infrared (FIR) radiation. More specifically, while all FIR-related prior art is only radiating broadband blackbody thermal radiation, said ceramic composite can emit not only the usual blackbody thermal radiation but also the inventive nonthermal FIR-photon radiation in the 3 - 16 µm wavelength spectrum. As a result, the overall measurable radiation in 8 - 14 µm wavelength range from said ceramic composite has an approximated blackbody temperature that is at least 1 °C higher than the actual temperature of said ceramic composite, signifying an effective emissivity greater than 1.0, while 1.0 emissivity is a theoretical limit assigned to an ideal black body and thus unsurpassable. It is an outcome of adding the 3 - 16 µm band of nonthermal FIR-photon radiation to the continuous 4 - 1,000 µm band of blackbody thermal radiation.
HIGH EMISSIVITY CERAMIC COMPOSITE FOR NONTHERMAL FAR INFRARED RADIATION
KERAMIKVERBUNDSTOFF MIT HOHER EMISSIVITÄT FÜR NICHTTHERMISCHE FERNINFRAROTSTRAHLUNG
COMPOSITE CÉRAMIQUE À ÉMISSIVITÉ ÉLEVÉE POUR RAYONNEMENT INFRAROUGE LOINTAIN NON THERMIQUE
WEY ALBERT CHIN-TANG (author)
2024-11-20
Patent
Electronic Resource
English
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