A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention relates to a far-infrared radiation source and a method for improving the far-infrared radiation rate and wavelength of a material, belongs to the technical field of production of far-infrared materials, and particularly relates to a processing method of the far-infrared radiation source and also relates to a method for improving the far infrared radiation rate and wavelength of the material by radiating the material by using a far infrared radiation source, wherein the material is irradiated by using a far infrared radiation mode, and the energy of the material is radiated by the far infrared radiation source to act on the material for a certain period of time to generate a resonance effect, so that the molecular movement is accelerated and the far infrared emission rate of the material is improved; thus, the far infrared emission rate and wavelength of the material are changed and improved, and the material can be widely applied to organic matters and inorganic matters such as metals, ores, ceramics, glass, wood, textiles, plastics, water, chemical materials and the like.
本发明涉及一种远红外辐射源及提高材料远红外放射率与波长的方法,属于远红外材料的生产技术领域,具体的说,特别涉及一种远红外辐射源加工方法,和一种利用远红外辐射源对材料进行辐射提高材料的远红外放射率及波长的一种方法,利用远红外辐射方式,对材料进行照射,经远红外辐射源的能量放射,将其能量作用在材料上一定时间,产生共振效应,从而加速分子运动,使材料的远红外放射率得到提升,从而改变及提高材料的远红外放射率及波长,可广泛应用于金属、矿石、陶瓷、玻璃、木材、纺织品、塑料、水及化工材料等有机物跟无机物。
The invention relates to a far-infrared radiation source and a method for improving the far-infrared radiation rate and wavelength of a material, belongs to the technical field of production of far-infrared materials, and particularly relates to a processing method of the far-infrared radiation source and also relates to a method for improving the far infrared radiation rate and wavelength of the material by radiating the material by using a far infrared radiation source, wherein the material is irradiated by using a far infrared radiation mode, and the energy of the material is radiated by the far infrared radiation source to act on the material for a certain period of time to generate a resonance effect, so that the molecular movement is accelerated and the far infrared emission rate of the material is improved; thus, the far infrared emission rate and wavelength of the material are changed and improved, and the material can be widely applied to organic matters and inorganic matters such as metals, ores, ceramics, glass, wood, textiles, plastics, water, chemical materials and the like.
本发明涉及一种远红外辐射源及提高材料远红外放射率与波长的方法,属于远红外材料的生产技术领域,具体的说,特别涉及一种远红外辐射源加工方法,和一种利用远红外辐射源对材料进行辐射提高材料的远红外放射率及波长的一种方法,利用远红外辐射方式,对材料进行照射,经远红外辐射源的能量放射,将其能量作用在材料上一定时间,产生共振效应,从而加速分子运动,使材料的远红外放射率得到提升,从而改变及提高材料的远红外放射率及波长,可广泛应用于金属、矿石、陶瓷、玻璃、木材、纺织品、塑料、水及化工材料等有机物跟无机物。
Far infrared radiation source and method for improving far infrared radiation rate and wavelength of material
一种远红外辐射源及提高材料远红外放射率与波长的方法
WU ZIDONG (author)
2021-07-16
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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