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The project aimed to develop a coating made from an innovative composite material by combining SiO2 and polyorganosiloxane (silicone) using the Sol-Gel process. This resulted in a coating with improved abrasion resistance and anti-adhesion properties that surpass the performance of traditional Sol-Gel coatings. SiO2 acts as the structural support for the layer and provides adhesion to the substrate surface, while the polyorganosiloxane imparts anti-adhesion properties, hydrophobicity, and improved flexibility. The hydrophobic nature of the coating ensures easy cleaning of the surface. Additionally, the project aimed to identify or develop a technological process that could be used to deposit these abrasion-resistant layers in a production setting. One key application of the coating was to enhance the wear resistance of polymer film surfaces.
The developed abrasion-resistant coatings feature a low curing temperature, making them suitable for use on heat-sensitive substrates like polymer films. In contrast, common anti-adhesion coatings require a higher curing temperature of 180°C, restricting their application to substrates with sufficient thermal stability.
Publication:
Verschleissschutzschicht und Verfahren zu ihrer Herstellung, DE 102019104311.5
ANSPRECHPARTNER:
Dr. Helfried Haufe
Fachsektion Dresden – “Funktionelle Schichten”
Tel.: 0351 / 2695 344
E-Mail: dresden@gmbu.de
© Gesellschaft zur Förderung von Medizin-, Bio- und Umwelttechnologien e.V.
