Nano Structured Physical Vapor Deposited Coatings by Means of Picosecond Laser Radiation

Bobzin, Kirsten; Bagcivan, Nazlim; Ewering, M.; Gillner, Arnold; Beckemper, Stefan; Hartmann, Claudia; Theiß, Sebastian

doi:10.1166/jnn.2011.3468

Cited by 4 publications

(1 citation statement)

References 13 publications

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“…Hard coatings are often required to protect molds and to extend their lifetime. These coatings [4][5][6] are usually vacuum deposited [7,8] conformal coatings that simply copy an underlying topography, without affecting roughness. Electroplated coatings like hard chrome can ଝ This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial-No Derivative Works License, which permits non-commercial use, distribution, and reproduction in any medium, provided the original author and source are credited.…”

Section: Introductionmentioning

confidence: 99%

Surface roughness reduction using spray-coated hydrogen silsesquioxane reflow

Čech

Pranov²,

Kofod³

et al. 2013

Applied Surface Science

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a b s t r a c tSurface roughness or texture is the most visible property of any object, including injection molded plastic parts. Roughness of the injection molding (IM) tool cavity directly affects not only appearance and perception of quality, but often also the function of all manufactured plastic parts. So called "optically smooth" plastic surfaces is one example, where low roughness of a tool cavity is desirable. Such tool surfaces can be very expensive to fabricate using conventional means, such as abrasive diamond polishing or diamond turning. We present a novel process to coat machined metal parts with hydrogen silsesquioxane (HSQ) to reduce their surface roughness. Results from the testing of surfaces made from two starting roughnesses are presented; one polished with grit 2500 sandpaper, another with grit 11.000 diamond polishing paste. We characterize the two surfaces with AFM, SEM and optical profilometry before and after coating. We show that the HSQ coating is able to reduce peak-to-valley roughness more than 20 times on the sandpaper polished sample, from 2.44(±0.99) m to 104(±22) nm and more than 10 times for the paste polished sample from 1.85(±0.63) m to 162(±28) nm while roughness averages are reduced 10 and 3 times respectively. We completed more than 10,000 injection molding cycles without detectable degradation of the HSQ coating. This result opens new possibilities for molding of affordable plastic parts with perfect surface finish.

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Section: Introductionmentioning

confidence: 99%

Surface roughness reduction using spray-coated hydrogen silsesquioxane reflow

Čech

Pranov²,

Kofod³

et al. 2013

Applied Surface Science

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Laser structured nitride and oxynitride coatings deposited by middle frequency magnetron sputtering

Bobzin

Brögelmann

Kruppe

et al. 2019

Materialwissenschaft Werkst

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Im Rahmen dieser Untersuchungen galt es zu bestimmen, inwiefern die Variation der Laserstrahlparameter, wie z. B. Pulsenergie und Pulsanzahl, Einfluss auf die Eigenschaften von unbeschichteten Stahlsubstraten sowie von nitridischen und oxinitridischen Beschichtungen nimmt. Drei verschiedene Sauerstoff‐Gasflüsse j(O2) = 10 sccm, j(O2) = 15 sccm und j(O2) = 20 sccm im Beschichtungsprozess und entsprechend drei verschiedene resultierende Beschichtungszusammensetzungen mit xj(O2) = 10 sccm = (39,8±4,2) Atom‐%, xj(O2) = 15 sccm = (31,6±1,4) Atom‐% und xj(O2) = 20 sccm = (58,4±6,0) Atom‐% wurden untersucht. Die Analyse der Strukturtiefe mittels konfokaler Laserscanningmikroskopie zeigte, dass mit steigender Pulsenergie und Pulsanzahl die Strukturtiefe erhöht wird. Die linienartigen Interferenzstrukturen mit konstanter Periodizität wurden mittels Rasterelektronenmikroskopie erfasst. Zusätzlich sind bei allen beschichteten Oberflächen in vertikaler Richtung laserinduzierte periodische Oberflächenstrukturen mit höherer räumlicher Frequenz und kleinerer Periodizität deutlicher zu beobachten. Bei der Beschichtung mit xj(O2) = 20 sccm = (58,4±6,0) Atom‐% entstehen nach der Laserstrukturierung an den Flanken der Interferenzstruktur Mikrorisse.

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