薄膜可见光透过率平均可达80%以上,在紫外光区有较高的吸收性;
The average transmittance of thin film in visible region was above 80%.
应用热膨胀测试、抗折强度测试和可见光透过率测试分析了微晶玻璃的性能。
The performances are studied by means of heat expansion testing, intension testing and visible light transmission testing and so on.
用分光光度计和激光拉曼光谱仪分别测定了样品的可见光透过率和发光强度。
Spectrophotometer and Laser Roman Spectrometer have been used for determining the intensity of transmission and emission.
随着PANI含量的增加,薄膜的可见光透过率逐渐下降,方块电阻也降低。
The sheet resistance of films decreased with an increase of PANI content, while visible light transmittance of the hybrid films also declined.
用本发明制备的复合材料质轻、易合成、价格低、环境友好、可见光透过率高。
The composite material produced by the preparation method of the invention has the advantages of light weight, easy synthesis, low price, good environmental protection and high light transmissivity.
所有薄膜在可见光区的平均透过率均达到了90%以上。
The average transmission of AZO films in the visible range was 90%.
光谱分析证实其在可见光区平均透过率可达75 % ,在红外区阻隔率达到73% ,能对热辐射起到有效的阻隔作用。
The average transmittance of the coatings in visible light spectrum is up to 75%, and 73% in infrared region, which can provide effective insulation for heat radiation.
透射谱分析得到薄膜在可见光范围内的透过率达到90%以上。
The transmittance of the film can be more than 90% in the visible region.
随着铁靶功率的增加,透射光谱的吸收边有微弱蓝移,透过率在可见光区超过75%。
With the increasing of the Fe target power, the transparent of the coatings showed low blue shifts with the transmittance within the visible range being up to 75%.
测试了配方的力学性能,可见光的透过率,燃烧性能。
The mechanical property, transmittance of the visible light and the fire behavior of the formulation were tested.
在可见光范围内,样品的相对透过率为85%左右。
通过对其进行紫外—可见光谱和反饱和吸收特性测试发现其具较好的反饱和吸收性能和较大的线性透过率。
The compounds were characterized in the UV-VIS spectra and the reverse saturable absorption measurements of the composite materials were performed.
AZO透明导电材料的光学透过率在可见光范围内高达85%,紫外吸收限随着掺杂浓度的增加而发生蓝移。
The optical transmittance of al doped AZO is as high as 85% in the visible region, the UV absorption edge is blue shifted greatly with increasing al doping concentration.
但薄膜的光学性能较差,在可见光波段和红外波段透过率都较低。
The films with better optical properties can be prepared by changing the process parameters.
但薄膜的光学性能较差,在可见光波段和红外波段透过率都较低。
The films with better optical properties can be prepared by changing the process parameters.
应用推荐