The Influence of the Processing Parameters on the Laser-Ablation of Stainless Steel and Brass during the Engraving by Nanosecond Fiber Laser
TLDR
Process optimization indicates that while operating with laser processing parameters resulting in the highest MRR, the best ratio between the MRR and surface roughness appears at ~50% overlap of the laser pulses, regardless of the material being processed.Abstract:
In this paper, we investigate the influence of the following parameters: pulse duration, pulse repetition rate, line-to-line and pulse-to-pulse overlaps, and scanning strategy on the ablation of AISI 316L steel and CuZn37 brass with a nanosecond, 1064-nm, Yb fiber laser. The results show that the material removal rate (MRR) increases monotonically with pulse duration up to the characteristic repetition rate (f0) where pulse energy and average power are maximal. The maximum MRR is reached at a repetition rate that is equal or slightly higher as f0. The exact value depends on the correlation between the fluence of the laser pulses and the pulse repetition rate, as well as on the material properties of the sample. The results show that shielding of the laser beam by plasma and ejected material plays an important role in reducing the MRR. The surface roughness is mainly influenced by the line-to-line and the pulse-to-pulse overlaps, where larger overlap leads to lower roughness. Process optimization indicates that while operating with laser processing parameters resulting in the highest MRR, the best ratio between the MRR and surface roughness appears at ~50% overlap of the laser pulses, regardless of the material being processed.read more
Citations
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Investigation of laser surface texturing parameters of biomedical grade Co-Cr-Mo alloy
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Investigation of the micro-milling process of steel with THz bursts of ultrashort laser pulses
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Influence of Heat Accumulation on Morphology Debris Deposition and Wetting of LIPSS on Steel upon High Repetition Rate Femtosecond Pulses Irradiation
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TL;DR: In this article , the laser-induced fabrication of low spatial frequency LIPSS (LSFL) with pulse repetition rates ranging from 10 kHz to 2 MHz on commercially available steel was investigated.
References
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Ultrafast laser processing of materials: from science to industry
Mangirdas Malinauskas,Albertas Žukauskas,Satoshi Hasegawa,Yoshio Hayasaki,Vygantas Mizeikis,Ričardas Buividas,Saulius Juodkazis,Saulius Juodkazis,Saulius Juodkazis +8 more
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Ultrafast laser processing of materials: a review
TL;DR: In this paper, an overview of the different processes that can result from focusing an ultrafast laser light in the femtosecond-nanosecond time regime on a host of materials, e.g., metals, semiconductors, and insulators.
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Metal Ablation with Short and Ultrashort Laser Pulses
TL;DR: In this paper, a comparative study of the ablation of metal with micro-, nano-, pico-and femtosecond laser pulses was presented, where the authors attributed the generally lower medium laser power of the ultrafast laser systems, on the other hand to the changed ablation mechanisms.
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Reflectivity of Metals at High Temperatures
TL;DR: In this paper, the reflectivity and other optical constants of metals at high temperatures are discussed on the basis of the Drude theory and the theory of electron-phonon collision.
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Industrial applications of laser micromachining
TL;DR: The use of pulsed lasers for microprocessing material in several manufacturing industries is presented and microvia, ink jet printer nozzle and biomedical catheter hole drilling, thin-film scribing and micro-electro-mechanical system (MEMS) fabrication applications are reviewed.