APPLIED LASER, Volume. 45, Issue 2, 123(2025)
Research on Glass Non-Destructive Laser Cutting Based on Heat Flux Density Control
[1] [1] BOVATSEK J M, PATEL R S. Highest-speed dicing of thin silicon wafers with nanosecond-pulse 355 nm q-switched laser source using line-focus fluence optimization technique[C]//Laser-based Micro-and Nanopackaging and Assembly Ⅳ. San Francisco, California, USA: SPIE, 2010: 19-30.
[5] [5] MIYASHITA Y, MOGI M, HASEGAWA H, et al. Study on a controlling method for crack nucleation and propagation behavior in laser cutting of glass[J]. Journal of Solid Mechanics and Materials Engineering, 2008, 2(12): 1555-1566.
[7] [7] KONDRATENKO V S. Modeling of laser cutting of float glass[J]. Glass and Ceramics, 2017, 73(11): 393-396.
[10] [10] MISHCHIK K. Ultrashort pulse laser cutting of glass by controlled fracture propagation[J]. Journal of Laser Micro, 2016, 11(1): 66-70.
[13] [13] MLLERS L. Controlled separation of laser processed brittle material: US20180257170[P]. 2018-09-13.
[14] [14] LAI S Y, EHRHARDT M, LORENZ P, et al. Ultrashort pulse laser-induced submicron bubbles generation due to the near-surface material modification of soda-lime glass[J]. Optics & Laser Technology, 2022, 146: 107573.
[15] [15] NIETO D, ARINES J, FLORES-ARIAS M T. Fluence ablation threshold dependence on tin impurities in commercial soda-lime glass[J]. Applied Optics, 2014, 53(24): 5416-5420.
[17] [17] RADENAC E, GRESSIER J, MILLAN P. Methodology of numerical coupling for transient conjugate heat transfer[J]. Computers & Fluids, 2014, 100: 95-107.
Get Citation
Copy Citation Text
Li Jiahao, Liu Yao, Zhang Huiyun, Ye Linzheng. Research on Glass Non-Destructive Laser Cutting Based on Heat Flux Density Control[J]. APPLIED LASER, 2025, 45(2): 123
Category:
Received: Jun. 12, 2024
Accepted: Jun. 17, 2025
Published Online: Jun. 17, 2025
The Author Email: Liu Yao (liuyao@nuc.edu.cn)