Effects of a quartz beam-guide on high-precision laser-assisted etching of Al2O3 ceramics

Abstract

Abstract Laser-assisted chemical etching of ceramic materials has been attracting continuous attention as a laser microfabrication technique with relatively low power levels. In this study, in order to improve the accuracy of etching depth and diameter, the application of a quartz beam-guide to the pulsed Nd:YAG laser-assisted etching process is proposed. By using this technique, possibilities of high-precision hole drilling with high aspect ratio and uniform surface etching in the radial direction of the beam using a beam-homogenizing effect of the beam-guide have been investigated for Al 2 O 3 ceramics immersed in H 3 PO 4 solution at room temperature. The results revealed that: (1) the distance between the beam-guide surface and the workpiece surface dominates the surface etching rate; (2) by using the beam-guide, the beam-homogenizing effect in the radial direction of the beam at the surface is confirmed; and (3) possibilities of uniform surface etching and high-precision hole drilling are demonstrated by applying the beam-homogenizing effects of the beam-guide.