Laser Technology, Volume. 46, Issue 6, 749(2022)
Study on energy transmission law of water-laser coupling in water-jet guided laser technology
References(19)
[1] [1] SUBASI L, DIBONIE J, GUNAYDIN A, et al. Water jet guided laser microdrilling of aerospace alloys: Correlation of material properties to process time and quality[J]. Journal of Laser Applications, 2021, 33(1): 012015.
[3] [3] COLLADON D. On the reflections of a ray of light inside a parabolic liquid stream[J]. Comptes Rendus, 1842, 15: 800-802.
[4] [4] HECHT J. City of the light: The story of fiber optics[M]. New York,USA: Oxford University Press, 1999: 17-27.
[5] [5] RICHERZHAGEN B. Method and apparatus for machining with a li-quid-guided laser beam: US 5902499[P]. 1999-05-11.
[6] [6] RICHERZHAGEN B. Chip singulation process with a water jet-guided laser[J]. Solid State Technology, 2001, 44(4): S25-S28.
[7] [7] NITIN S. The first coupling of a laser beam to a water jet[J]. Photonics Views, 2021, 18(1): 72-76.
[8] [8] QIAO H Ch, CAO Zh H, CUI J F, et al. Experimental study on water jet guided laser micro-machining of mono-crystalline silicon[J]. Optics and Laser Technology, 2021, 140: 107057.
[9] [9] SPIEGEL A, VAGO N, WAGNER F R. High efficiency Raman scattering in micrometer-sized water jets [J]. Optical Engineering, 2004, 43(2): 450-454.
[10] [10] SALENKO A, KHOLODNYI V. The water jet guided laser method in punching honeycomb cores for aerospace sandwich panels[J]. Eastern-European Journal of Enterprise Technologies, 2016, 1(5): 19-30.
[11] [11] COUTY P, WAGNER F R, HOFFMANN P. Laser coupling with a multimode water-jet waveguide[J]. Optical Engineering, 2005, 44(6): 068001.
[12] [12] COUTY P, SPIEGEL A, VAGO N, et al. Laser-induced break-up of water jet waveguide[J]. Experiments in Fluids, 2004, 36(6): 919-927.
[13] [13] LI Ch Q. Reserch on water-jet guided laser micromachining system and key technologies[D]. Harbin: Harbin Institute of Technology, 2012: 38-54(in Chinese).
[14] [14] ZHANG Y H, LU T F, LIU Y X, et al. Intensities of non-uniformly polarized beams in the oceanic turbulence[J]. Laser Technology, 2020, 44(3): 310-314(in Chinese).
[15] [15] DENG Ch, YEO H , KI H. Electrodynamic simulation of laser beam propagation in waterjet-guided laser processing[J]. Optics Express, 2020, 28(8): 11128-11143.
[16] [16] ZHANG G Y, ZHANG Zh, WANG Y F, et al. Gas shrinking laminar flow for robust high-power waterjet laser processing technology[J]. Optics Express, 2019, 27(26): 38635-38644.
[17] [17] GHASSEMIEH E, VERSTEEG H K, ACAR M. Effect of nozzle geo-metry on the flow characteristics of hydroentangling jets[J]. Textile Research Journal, 2003, 73(5): 444-450.
[18] [18] YANG L F, JIAO H, HUANG Y X, et al. Simulation study of the flow field in the plane convergent nozzle based on the water guide laser[J]. Laser Technology, 2020, 44(6): 726-731(in Chinese).
[19] [19] ANANTHARAMAIAH N, TAFRESHI H V, POURDEYHIMI B. A study on flow through hydroentangling nozzles and their degradation[J]. Chemical Engineering Science, 2006, 61(14): 4582-4594.
[20] [20] LIU Y, WEI M R, ZHANG T, et al. Overview on the development and critical issues of water jet guided laser machining technology[J]. Optics and Laser Technology, 2021, 137: 106820.
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ZHANG Guanghui, HUANG Yuxing, HUANG Ping, ZHOU Liao, JIAO Hui, LONG Yuhong. Study on energy transmission law of water-laser coupling in water-jet guided laser technology[J]. Laser Technology, 2022, 46(6): 749
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Received: Oct. 25, 2021
Accepted: --
Published Online: Feb. 4, 2023
The Author Email: LONG Yuhong (longyuhong@guet.edu.cn)
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