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Study on processing parameters of glass cutting by nanosecond 532 nm fiber laser
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Paper Abstract

The processing parameters of soda-lime glass cutting with several nanosecond 532 nm pulsed fiber laser are studied in order to obtain sufficiently large ablation rate and better processing quality. The influences of laser processing parameters on effective cutting speed and cutting quality of 1~2 mm thick soda-lime glass are studied. The experimental results show that larger laser pulse energy will lead to higher effective cutting speed and larger maximum edge collapse of the front side of the glass samples. Compared with that of 1.1 mm thick glass samples, the 2.0 mm thick glass samples is more difficult to cut. With the pulse energy of 51.2 μJ, the maximum edge collapse is more than 200 μm for the 2.0 mm thick glass samples. In order to achieve the high effective cutting speed and good cutting quality at the same time, the dual energy overlapping method is used to obtain the better cutting performance for the 2.0 mm thick glass samples, and the cutting speed of 194 mm/s and the maximum edge collapse of less than 132 μm are realized.

Paper Details

Date Published: 5 March 2018
PDF: 8 pages
Proc. SPIE 10710, Young Scientists Forum 2017, 107104D (5 March 2018); doi: 10.1117/12.2317688
Show Author Affiliations
Jin Wang, Soochow Univ. (China)
Fan Gao, Soochow Univ. (China)
Key Lab. of Advanced Optical Manufacturing Technologies of Jiangsu Province (China)
Key Lab. Modern Optical Technologies of Education Ministry of China (China)
Baoxing Xiong, Soochow Univ. (China)
Key Lab. of Advanced Optical Manufacturing Technologies of Jiangsu Province (China)
Key Lab. Modern Optical Technologies of Education Ministry of China (China)
Xiang Zhang, Soochow Univ. (China)
Key Lab. of Advanced Optical Manufacturing Technologies of Jiangsu Province (China)
Key Lab. Modern Optical Technologies of Education Ministry of China (China)
Xiao Yuan, Soochow Univ. (China)
Key Lab. of Advanced Optical Manufacturing Technologies of Jiangsu Province (China)
Key Lab. Modern Optical Technologies of Education Ministry of China (China)


Published in SPIE Proceedings Vol. 10710:
Young Scientists Forum 2017
Songlin Zhuang; Junhao Chu; Jian-Wei Pan, Editor(s)

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