Spectroscopic Study of UV Transparency of Some Materials

S. S. Sackey, M. K. Vowotor, A. Owusu, P. Mensah-Amoah, E. Tatchie, B. Sefa-Ntiri, C. O. Hood, S. Atiemo
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引用次数: 18

Abstract

Elevated exposure to Ultra-Violet Radiation (UVR) from the sun has led to adverse effects on human skin and foods, and therefore, the need for materials that offer resistance to Ultra-Violet (UV) penetration for protection. Some building window and non-window-materials, car-glasses, Linear Low Density Polyethylene (LLDPE) and Polyethylene Terephthalate (PET) rubber and plastic materials have been investigated to determine their transparencies and suitability for use as shields against UVR. These were studied by directly measuring scattered solar radiation through the optical window of a spectrometer and then measuring the scattered light when the window was completely covered with the material to be examined. Wavelengths of light that were not absorbed when sunlight was incident on the samples and the transmitted intensity of sunlight at each wavelength through each sample as compared to the transmitted intensity through air were determined in the UVB and UVA spectral regions. The results showed that the building window-glasses were opaque to UVB but transparent to UVA while the non-window-glasses exhibited transparency in the UVB and UVA spectral regions. The car-glass (laminated), used as windscreen, was opaque to UVB and UVA while the side-glass (non-laminated) was opaque to UVB but transparent to UVA. Perspex, sometimes used as an alternative to windscreen and side-glass in cars, exhibited transparency in UVB and UVA spectral regions. The LLDPE materials used for food storage were transparent to UVB and UVA while the PET plastic materials used for water, fruit juice and beverage storage was opaque to UVB but transparent to UVA.
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某些材料紫外透明度的光谱研究
太阳紫外线辐射(UVR)的增加会对人体皮肤和食物产生不利影响,因此,需要抗紫外线(UV)渗透的材料作为保护。对一些建筑窗户和非窗户材料、汽车玻璃、线性低密度聚乙烯(LLDPE)和聚对苯二甲酸乙二醇酯(PET)橡胶和塑料材料进行了研究,以确定它们的透明度和作为紫外线屏蔽物的适用性。这些都是通过光谱仪的光学窗口直接测量散射太阳辐射,然后当窗口完全被待测材料覆盖时测量散射光来研究的。在UVB和UVA光谱区,测定了太阳光照射到样品上时未被吸收的光的波长,以及每个波长的太阳光通过每个样品的透射强度与通过空气的透射强度的比较。结果表明,建筑玻璃对UVB不透明,对UVA透明,而非窗户玻璃在UVB和UVA光谱区域均透明。作为挡风玻璃的汽车玻璃(夹层)对UVB和UVA不透明,而侧玻璃(非夹层)对UVB不透明,但对UVA透明。有机玻璃有时被用作汽车挡风玻璃和侧玻璃的替代品,在UVB和UVA光谱区域表现出透明度。用于食品储存的LLDPE材料对UVB和UVA透明,而用于水、果汁和饮料储存的PET塑料材料对UVB不透明,但对UVA透明。
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