화학공학소재연구정보센터
Applied Surface Science, Vol.357, 2277-2284, 2015
Post-modelling of images from a laser-induced wavy boiling front
Processes like laser keyhole welding, remote fusion laser cutting or laser drilling are governed by a highly dynamic wavy boiling front that was recently recorded by ultra-high speed imaging. A new approach has now been established by post-modelling of the high speed images. Based on the image greyscale and on a cavity model the three-dimensional front topology is reconstructed. As a second step the Fresnel absorptivity modulation across the wavy front is calculated, combined with the local projection of the laser beam. Frequency polygons enable additional analysis of the statistical variations of the properties across the front. Trends like shadow formation and time dependency can be studied, locally and for the whole front. Despite strong topology modulation in space and time, for lasers with 1 pin wavelength and steel the absorptivity is bounded to a narrow range of 35-43%, owing to its Fresnel characteristics. (C) 2015 Elsevier B.V. All rights reserved.