2009
DOI: 10.1243/09544054jem1479
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Use of thin laminar liquid flows above ablation area for control of ejected material during excimer machining

Abstract: To observe excimer laser machining through thin liquid films and the effects thereof on debris control, equipment was designed to contain a small control volume that can be supplied with a laminar thin film of DI water to flow over the workpiece. Using the same equipment, comparison with non-liquid ablation was possible. Reliable calculations of the debris size and density with respect to the distance from the centre of the shot, as well as the identification of modal trends in the dispersion of the debris wer… Show more

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Cited by 10 publications
(23 citation statements)
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“…This work shows that minor modification to the beam focal point can cause a marked change in the cross sectional geometry of the machined feature. This is an outcome that is confirmed by the poor geometry of the features machined using open thin film flowing liquid immersed KrF excimer laser ablation [28], which had a rippled and variable surface. Furthermore, there is the ability to control (and increase) the flow velocity of the fluid though the duct; this will increase the drag force imparted on a debris particle by the flow.…”
Section: Introductionmentioning
confidence: 80%
See 3 more Smart Citations
“…This work shows that minor modification to the beam focal point can cause a marked change in the cross sectional geometry of the machined feature. This is an outcome that is confirmed by the poor geometry of the features machined using open thin film flowing liquid immersed KrF excimer laser ablation [28], which had a rippled and variable surface. Furthermore, there is the ability to control (and increase) the flow velocity of the fluid though the duct; this will increase the drag force imparted on a debris particle by the flow.…”
Section: Introductionmentioning
confidence: 80%
“…In an open flow, turbulence commences following a characteristic distance measured between the contact point of a fluid on a flat plate and the point at which the flow becomes turbulent [33]; however, this case requires all dimensions of the flow, including film depth, to be large compared to the characteristic distance. In the case of this flow, the meniscus defines the flow geometry; thus, the effect of rolling eddies alone are not responsible for the deposition patterns evidenced by Dowding and Lawrence [28], where debris distribution appeared to lie in ripple patterns downstream of the feature machined. Instead, large inertial, capillary and viscous contributions complicated the flow path.…”
Section: Introductionmentioning
confidence: 97%
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“…To compound matters, debris can coat machinery, requiring costly downtime for cleaning and servicing [7], or the debris can become airborne in the working environment of tool users, posing potential respiratory health issues [8]. The use a technique involving closed flowing thick film filtered water immersion of the sample during laser ablation has shown promise as a plausible solution for such problems [9,10]; however, the impact of such techniques on the basic laser machining characteristics are not extensively documented; only the effect of thin film open immersion on ablation rate and threshold having been previously detailed [11,12]. This work will explore the impact of closed flowing thick film filtered water immersion laser ablation machining using KrF excimer laser radiation on the ablation threshold of bisphenol A polycarbonate in comparison to the machining properties of the same material in ambient air and, furthermore, the importance of liquid flow velocity, V, to the ablation threshold will also be explored in detail in this work.…”
Section: Introductionmentioning
confidence: 99%