Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
High emissivity ceramic composite material for non-thermal far infrared radiation
The present invention relates to a high emissivity ceramic composite for non-thermal far infrared radiation, which can be used for various purposes, including for assembly into a therapeutic device for treating the human or animal body with irradiation with non-thermal far infrared (FIR) radiation. More specifically, although all of the FIR-related prior art radiates only broadband black-body thermal radiation, the ceramic composite material can not only emit usual black-body thermal radiation, but also emit non-thermal FIR photon radiation of the invention having a wavelength range in the spectral range of 3 [mu] m to 16 [mu] m. Thus, the total measurable radiation from the ceramic composite in the 8 [mu] m to 14 [mu] m wavelength range has an approximate blackbody temperature that is at least 1 DEG C higher than the actual temperature of the ceramic composite, which represents an effective emissivity greater than 1.0. Although 1.0 emissivity is the theoretical limit assigned to the ideal blackbody and thus is insurmountable.
本发明涉及一种用于非热远红外辐射的高发射率陶瓷复合材料,其可以用于各种目的,包括用于组装到用于用非热远红外(FIR)辐射的照射来治疗人体或动物体的治疗设备中。更具体地,虽然所有FIR相关的现有技术仅辐射宽带黑体热辐射,但是所述陶瓷复合材料不仅可以发射通常的黑体热辐射,而且可以发射波长范围位于3μm至16μm光谱区间内的本发明的非热FIR光子辐射。因此,来自所述陶瓷复合材料的8μm至14μm波长范围内的总可测量辐射具有比所述陶瓷复合材料的实际温度高至少1°C的近似黑体温度,这表示大于1.0的有效发射率。虽然1.0发射率是分配给理想黑体的理论极限并因此是不可超越的。
High emissivity ceramic composite material for non-thermal far infrared radiation
The present invention relates to a high emissivity ceramic composite for non-thermal far infrared radiation, which can be used for various purposes, including for assembly into a therapeutic device for treating the human or animal body with irradiation with non-thermal far infrared (FIR) radiation. More specifically, although all of the FIR-related prior art radiates only broadband black-body thermal radiation, the ceramic composite material can not only emit usual black-body thermal radiation, but also emit non-thermal FIR photon radiation of the invention having a wavelength range in the spectral range of 3 [mu] m to 16 [mu] m. Thus, the total measurable radiation from the ceramic composite in the 8 [mu] m to 14 [mu] m wavelength range has an approximate blackbody temperature that is at least 1 DEG C higher than the actual temperature of the ceramic composite, which represents an effective emissivity greater than 1.0. Although 1.0 emissivity is the theoretical limit assigned to the ideal blackbody and thus is insurmountable.
本发明涉及一种用于非热远红外辐射的高发射率陶瓷复合材料,其可以用于各种目的,包括用于组装到用于用非热远红外(FIR)辐射的照射来治疗人体或动物体的治疗设备中。更具体地,虽然所有FIR相关的现有技术仅辐射宽带黑体热辐射,但是所述陶瓷复合材料不仅可以发射通常的黑体热辐射,而且可以发射波长范围位于3μm至16μm光谱区间内的本发明的非热FIR光子辐射。因此,来自所述陶瓷复合材料的8μm至14μm波长范围内的总可测量辐射具有比所述陶瓷复合材料的实际温度高至少1°C的近似黑体温度,这表示大于1.0的有效发射率。虽然1.0发射率是分配给理想黑体的理论极限并因此是不可超越的。
High emissivity ceramic composite material for non-thermal far infrared radiation
用于非热远红外辐射的高发射率陶瓷复合材料
WEI QINGTANG (Autor:in)
22.11.2024
Patent
Elektronische Ressource
Chinesisch
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