7 March 2017 Ultrashort pulse laser-induced texturing of stainless steel at 1 MHz and high average power: impact of process parameters
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Abstract
Exploitation of surface texturing by ultra-short pulse laser (UPL) technology for commercial purposes requires the undertaking of several issues including a reliable and robust set-up compatible with large area and high throughput production. A technological strategy to rise to this challenge could be the use of polygon scanner which can deflect a laser beam with unprecedented speed (up to some hundreds of m/s) over an optical field of some tens of cm, jointly with high average power UPL delivering pulse energies of few tens of micro joule and repetition rates in the range of MHz. Nevertheless, unwanted thermal effects are expected to arise, when utilising average power as high as several tens of Watts, compromising the surface texturing morphology. Here a study is reported on the surface texturing of stainless steel carried out utilising an industrial UPL emitting both in the near infrared (λ = 1030 nm) and visible (λ = 515 nm) with high average power (up to 20 W) and operating at high repetition rate (1 MHz). The impact of the fundamental process parameters like single pulse fluence, beam scan speed, number of successive scans and energy dose has been studied. The evolution of the surface morphology has been investigated using scanning electron microscopy (SEM) analysis. We believe our results will contribute to an in deep understanding of the UPL laser texturing with high power, as preliminary step to increase in the next future surface texturing by UPL technological readiness.
Conference Presentation
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F. Fraggelakis, F. Fraggelakis, G. Mincuzzi, G. Mincuzzi, J. Lopez, J. Lopez, Inka Manek-Hönninger, Inka Manek-Hönninger, R. Kling, R. Kling, } "Ultrashort pulse laser-induced texturing of stainless steel at 1 MHz and high average power: impact of process parameters", Proc. SPIE 10092, Laser-based Micro- and Nanoprocessing XI, 1009213 (7 March 2017); doi: 10.1117/12.2251867; https://doi.org/10.1117/12.2251867
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