Surface Activation of Plane and Curved Automotive Polymer Surfaces by Using a Fittable Multi-Pin DBD Plasma Source

In this work, surface activation of automotive polymers using atmospheric pressure plasmas was investigated. The aim was to increase the polar fraction of the surface energy of both plane and convex polymer devices with a radius in the range of 30 mm. For this purpose, a fittable low temperature atm...

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Veröffentlicht in:	Plasma science & technology 2014-06, Vol.16 (6), p.593-597
Hauptverfasser:	Heine, Jörn, Damm, Roland, Gerhard, Christoph, Wieneke, Stephan, Viöl, Wolfgang
Format:	Artikel
Sprache:	eng
Schlagworte:	Atmospheric pressure Automotive components Barometric pressure DBD Density Electrodes Planes Surface activation Surface energy 分子表面平面汽车等离子体源聚合物材料表面活化装配
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creator	Heine, Jörn Damm, Roland Gerhard, Christoph Wieneke, Stephan Viöl, Wolfgang
description	In this work, surface activation of automotive polymers using atmospheric pressure plasmas was investigated. The aim was to increase the polar fraction of the surface energy of both plane and convex polymer devices with a radius in the range of 30 mm. For this purpose, a fittable low temperature atmospheric pressure plasma source based on capacitively coupled multi-pin electrodes was set up and applied. Each single electrode generates a treatment spot of approximately 2 cm2 with a tunable power density of up to 1.4 W/cm2. The surface energy was evaluated by contact angle measurements. After treatment at a low energy density of 1.01 J/cm2, the polar fraction of the surface energy of the investigated polymers was increased by a factor of 3.3 to 132, depending on the polymer materials. It was shown that by applying the presented fittable plasma source, this effect is independent of the surface radius of the polymer sample.
doi_str_mv	10.1088/1009-0630/16/6/10
format	Article
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subjects	Atmospheric pressure Automotive components Barometric pressure DBD Density Electrodes Planes Surface activation Surface energy 分子表面平面汽车等离子体源聚合物材料表面活化装配
title	Surface Activation of Plane and Curved Automotive Polymer Surfaces by Using a Fittable Multi-Pin DBD Plasma Source
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