Picosecond Pulsed Laser Ablation of Liquid Covered Stainless Steel: Effect of Liquid Layer Thickness on Ablation Efficiency
Under liquid laser ablation is a material removal technique in which a focused laser beam passes through a liquid layer on top of the surface of a sample to be processed. When compared to laser ablation without a liquid layer, material (re)deposition around ablated regions is decreased. In addition,...
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| Published in | Journal of laser micro nanoengineering Vol. 14; no. 1; pp. 108 - 119 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Ibaraki
Japan Laser Processing Society
01.04.2019
Reza Netsu Kako Kenkyukai |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Under liquid laser ablation is a material removal technique in which a focused laser beam passes through a liquid layer on top of the surface of a sample to be processed. When compared to laser ablation without a liquid layer, material (re)deposition around ablated regions is decreased. In addition, the ablation efficiency of the process, in terms of the amount of material removed per pulse, can be optimized by careful variation of the height of the liquid layer: a liquid layer height variation as small as a few tenth of millimeters already has a measurable effect on the amount of ablated material. In studies reported in existing literature, the required liquid layer height is typically realized by pouring a pre-defined amount of liquid on top of the sample surface. Surface tension, however, causes the airliquid interface at the boundaries of the domain to deviate from the planar interface away from the boundaries, which affects the accuracy with which the liquid layer height can be determined. To the best of our knowledge, these accuracy issues have not been studied in previous research. Therefore, an experimental set-up is proposed which circumvents the issues of a curved free surface. Next, a 7 picosecond pulsed laser source ([M.sup.2] [less than or equal to]1.3) at a wavelength of 515nm was employed at a repetition rate of 1 kHz to study the efficiency of laser ablation of stainless steel for a range of liquid layer heights. Our findings provide a more detailed quantification of crater depth as a function of liquid layer height than is available through existing literature. Keywords: laser, ablation, stainless steel, picosecond, liquid, distilled water |
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| AbstractList | Under liquid laser ablation is a material removal technique in which a focused laser beam passes through a liquid layer on top of the surface of a sample to be processed. When compared to laser ablation without a liquid layer, material (re)deposition around ablated regions is decreased. In addition, the ablation efficiency of the process, in terms of the amount of material removed per pulse, can be optimized by careful variation of the height of the liquid layer: a liquid layer height variation as small as a few tenth of millimeters already has a measurable effect on the amount of ablated material. In studies reported in existing literature, the required liquid layer height is typically realized by pouring a pre-defined amount of liquid on top of the sample surface. Surface tension, however, causes the airliquid interface at the boundaries of the domain to deviate from the planar interface away from the boundaries, which affects the accuracy with which the liquid layer height can be determined. To the best of our knowledge, these accuracy issues have not been studied in previous research. Therefore, an experimental set-up is proposed which circumvents the issues of a curved free surface. Next, a 7 picosecond pulsed laser source (M2 <1.3) at a wavelength of 515nm was employed at a repetition rate of 1 kHz to study the efficiency of laser ablation of stainless steel for a range of liquid layer heights. Our findings provide a more detailed quantification of crater depth as a function of liquid layer height than is available through existing literature. Under liquid laser ablation is a material removal technique in which a focused laser beam passes through a liquid layer on top of the surface of a sample to be processed. When compared to laser ablation without a liquid layer, material (re)deposition around ablated regions is decreased. In addition, the ablation efficiency of the process, in terms of the amount of material removed per pulse, can be optimized by careful variation of the height of the liquid layer: a liquid layer height variation as small as a few tenth of millimeters already has a measurable effect on the amount of ablated material. In studies reported in existing literature, the required liquid layer height is typically realized by pouring a pre-defined amount of liquid on top of the sample surface. Surface tension, however, causes the airliquid interface at the boundaries of the domain to deviate from the planar interface away from the boundaries, which affects the accuracy with which the liquid layer height can be determined. To the best of our knowledge, these accuracy issues have not been studied in previous research. Therefore, an experimental set-up is proposed which circumvents the issues of a curved free surface. Next, a 7 picosecond pulsed laser source ([M.sup.2] [less than or equal to]1.3) at a wavelength of 515nm was employed at a repetition rate of 1 kHz to study the efficiency of laser ablation of stainless steel for a range of liquid layer heights. Our findings provide a more detailed quantification of crater depth as a function of liquid layer height than is available through existing literature. Keywords: laser, ablation, stainless steel, picosecond, liquid, distilled water |
| Audience | Academic |
| Author | Linden, Sietse van der Hagmeijer, Rob Romer, Gert-willem |
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| Copyright | COPYRIGHT 2019 Japan Laser Processing Society Copyright Reza Netsu Kako Kenkyukai Apr 2019 |
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| DOI | 10.2961/jlmn.2019.01.0018 |
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| Snippet | Under liquid laser ablation is a material removal technique in which a focused laser beam passes through a liquid layer on top of the surface of a sample to be... |
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| SubjectTerms | Ablative materials Accuracy Boundaries Comparative analysis Efficiency Evaporation Free surfaces Handbooks Laser ablation Laser beams Lasers Liquid lasers Optics Pulsed lasers Stainless steel Stainless steels Surface tension Thickness Water |
| Title | Picosecond Pulsed Laser Ablation of Liquid Covered Stainless Steel: Effect of Liquid Layer Thickness on Ablation Efficiency |
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