Affiliation:
1. King Mongkut’s University of Technology Thonburi
2. University of New South Wales
Abstract
Laser micromachining has been widely used for decades to fabricate the micro- and submicro-component structures. However, thermal and physical damages are crucial issues associated with the process. Underwater laser ablation has been developed as a damage-free micro-ablation technique. In this paper, a comparison of the conventional dry and underwater laser micromachining of silicon is presented. It shows that the heat affected zone (HAZ) can be reduced significantly in the underwater laser process, though the material removal rate is reduced due to the energy loss by the water layer. The effects of pulse frequency, traverse speed and laser energy on the obtained kerf width, HAZ and cut surface quality are also analyzed and discussed.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference13 articles.
1. C. Ma, W.Y. Ho, R.M. Walser and M.F. Becker: Proceedings of SPIE, Boulder, CO (1993).
2. V.K. Arora and A.L. Dawar: Applied Optics, 35(36) (1996), pp.7061-7065.
3. S. Baumann, D. Kray, K. Mayer, A. Eyer and G.P. Willeke: In Conference Record of the 2006 IEEE 4th World Conference on Photovoltaic Energy Conversion, WCPEC-4, HI (2006).
4. T.S. Gross, S.D. Hening and D.W. Watt: Journal of Applied Physics 69(2) (1991), p.983989.
5. J.W. Yan, S.Y. Muto and T. Kuriyagawa: Advanced Materials Research 76-78 (2009), pp.451-456.
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