Debris-free, Zero Taper Cutting of BOROFLOAT 33 Glass Using a Femtosecond Bessel Laser Beam

Zhaoqing Li; J-L Wang; X-F Wang; Olivier Allegre; W Guo; W-Y Gao; Y Xue; Lin Li

Debris-free, Zero Taper Cutting of BOROFLOAT 33 Glass Using a Femtosecond Bessel Laser Beam

Zhaoqing Li, J-L Wang, X-F Wang, Olivier Allegre, W Guo, W-Y Gao, Y Xue, Lin Li

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Abstract

Owing to nonlinear absorption, ultra-short pulse lasers can be used to modify the properties of bulk transparent materials. In this paper, an 800 nm femtosecond laser Bessel beam was used to induce nonlinear filamentation inside a bulk BOROFLOAT 33 borosilicate glass sheet, followed by mechanical cleavage. The effects of scanning speed on the cleavage force and surface roughness were analysed. By increasing the number of lasers passes over the test piece, the cleavage force was reduced while the sidewall surface roughness was increased. By optimizing the process parameters, straight and curved cuts have been achieved free from debris and crack, with a zero taper a surface roughness around 550 nm Ra.

Original language	English
Journal	Lasers in Engineering
Publication status	Published - 1 Jan 2020

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https://www.oldcitypublishing.com/journals/lie-home/lie-issue-contents/lie-volume-46-number-5-6-2020/lie-46-5-6-p-383-393/

LPRC: Laser Processing Research Centre Impact
Allegre, O. (PI), Crosby, D. (PI), Domingos, M. (PI), Francis, J. (PI), Gillen, D. (PI), Guo, W. (PI), Li, L. (PI), Mativenga, P. (PI), Rogers, B. D. (PI), Whitehead, D. (PI), Wilson, D. (PI), Zhong, S. (PI), Mirhosseini, N. (Researcher), Ouyang, J. (Researcher), Huang, Y. (Researcher), Wei, C. (Researcher), Cheng, D. (PGR student), Suryo Pratomo, E. (PGR student), Zhang, Z. (PGR student), Li, Z. (PGR student), Mo, H. (PGR student), Zhu, M. (PGR student), Li, Q. (PGR student), Liu, W. (PGR student), Wang, L. (PGR student), Guo, H. (PGR student), Heinemann, R. (PI) & Liu, Z. (PI)
1/04/00 → …
Project: Research

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title = "Debris-free, Zero Taper Cutting of BOROFLOAT 33 Glass Using a Femtosecond Bessel Laser Beam",

abstract = "Owing to nonlinear absorption, ultra-short pulse lasers can be used to modify the properties of bulk transparent materials. In this paper, an 800 nm femtosecond laser Bessel beam was used to induce nonlinear filamentation inside a bulk BOROFLOAT 33 borosilicate glass sheet, followed by mechanical cleavage. The effects of scanning speed on the cleavage force and surface roughness were analysed. By increasing the number of lasers passes over the test piece, the cleavage force was reduced while the sidewall surface roughness was increased. By optimizing the process parameters, straight and curved cuts have been achieved free from debris and crack, with a zero taper a surface roughness around 550 nm Ra.",

author = "Zhaoqing Li and J-L Wang and X-F Wang and Olivier Allegre and W Guo and W-Y Gao and Y Xue and Lin Li",

year = "2020",

month = jan,

day = "1",

language = "English",

journal = "Lasers in Engineering",

issn = "0898-1507",

publisher = "Old City Publishing",

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T1 - Debris-free, Zero Taper Cutting of BOROFLOAT 33 Glass Using a Femtosecond Bessel Laser Beam

AU - Li, Zhaoqing

AU - Wang, J-L

AU - Wang, X-F

AU - Allegre, Olivier

AU - Guo, W

AU - Gao, W-Y

AU - Xue, Y

AU - Li, Lin

PY - 2020/1/1

Y1 - 2020/1/1

N2 - Owing to nonlinear absorption, ultra-short pulse lasers can be used to modify the properties of bulk transparent materials. In this paper, an 800 nm femtosecond laser Bessel beam was used to induce nonlinear filamentation inside a bulk BOROFLOAT 33 borosilicate glass sheet, followed by mechanical cleavage. The effects of scanning speed on the cleavage force and surface roughness were analysed. By increasing the number of lasers passes over the test piece, the cleavage force was reduced while the sidewall surface roughness was increased. By optimizing the process parameters, straight and curved cuts have been achieved free from debris and crack, with a zero taper a surface roughness around 550 nm Ra.

AB - Owing to nonlinear absorption, ultra-short pulse lasers can be used to modify the properties of bulk transparent materials. In this paper, an 800 nm femtosecond laser Bessel beam was used to induce nonlinear filamentation inside a bulk BOROFLOAT 33 borosilicate glass sheet, followed by mechanical cleavage. The effects of scanning speed on the cleavage force and surface roughness were analysed. By increasing the number of lasers passes over the test piece, the cleavage force was reduced while the sidewall surface roughness was increased. By optimizing the process parameters, straight and curved cuts have been achieved free from debris and crack, with a zero taper a surface roughness around 550 nm Ra.

M3 - Article

SN - 0898-1507

JO - Lasers in Engineering

JF - Lasers in Engineering

ER -

Debris-free, Zero Taper Cutting of BOROFLOAT 33 Glass Using a Femtosecond Bessel Laser Beam

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LPRC: Laser Processing Research Centre Impact

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