Abstract

This paper proposes an antiglare (AG) coatings method for tempered glass that uses a silk-screen printing machine. A ZnO-B₂O₃-SiO₂ glass frits paste was prepared to form the AG coating during the silk-screen printing manufacturing process. The main parameters that characterize the AG effect in the context of the proposed method were analyzed and a haze model was developed. The proposed haze model uses a neural network algorithm and the weighting factors of the neural network structure were set using the experiment data.

© 2016 IEEE

Preparation of a YAG:Ce phosphor glass by screen-printing technology and its application in LED packaging

Liang Yang, Mingxiang Chen, Zhicheng Lv, Simin Wang, Xiaogang Liu, and Sheng Liu
Opt. Lett. 38(13) 2240-2243 (2013)

Thermally stable WLEDs with excellent luminous properties by screen-printing a patterned phosphor glass layer on a microstructured glass plate

Yang Peng, Xing Guo, Ruixin Li, Hao Cheng, and Mingxiang Chen
Appl. Opt. 56(12) 3270-3276 (2017)

Ultrahigh-transparency, ultrahigh-haze nanograss glass with fluid-induced switchable haze

Sajad Haghanifar, Tongchuan Gao, Rafael T. Rodriguez De Vecchis, Bradley Pafchek, Tevis D. B. Jacobs, and Paul W. Leu
Optica 4(12) 1522-1525 (2017)

Glass screen-printed optical components

R. Ravetti
Appl. Opt. 20(19) 3280-3281 (1981)

Improvement in angular color uniformity of white light-emitting diodes using screen-printed multilayer phosphor-in-glass

Simin Wang, Xing Chen, Mingxiang Chen, Huai Zheng, Hongru Yang, and Sheng Liu
Appl. Opt. 53(36) 8492-8498 (2014)