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Pressemitteilung BoxID: 357931 (Hohenstein Institute)
  • Hohenstein Institute
  • Schlosssteige 1
  • 74357 Bönnigheim
  • https://www.hohenstein.de
  • Ansprechpartner
  • Jan Beringer

A new approach optimises "lotus effect" of soil-repellent textiles

Improved surface structure increases hydrophobicity and durability

(PresseBox) (Bönnigheim , ) Soilrepellent textiles that optimally utilise what is known as the "lotus effect" seen in nature have been developed under the auspices of a joint research project of the BMWi[Federal Ministry of Economics and Technology] carried out by the Hohenstein Institute in Boennigheim and ITCF Denkendorf (AiF-No. 15142 N/1). By means of new fibre structuring, the soilrepellent effect has for the first time been realised through fibre immanent surface structuring.
Particles that have been incorporated during manufacturing have shown only negligible effects on the behaviour of dyes and the dye absorbency of the polymer.

Up to now, conventional, subsequent finishing was the means used to apply hydrophobic microand nanostructures to surfaces. The functional layer produced in this way demonstrated good soilrepellent effects but was nevertheless not always durable under conditions of intensive use.

Now a new approach to the manufacturing of surface structures has significantly reduced this deficit and optimised the soilrepellent effect of surfaces. An additional, nanostructured surface is generated with the help of superparamagnetic nanoparticles directly during the melt spinning process of manmade fibres. This socalled ferromagnetic fibre structuring with high energy magnetic field coil takes place directly after the spinneret, when the spinmelt is still in a thermoplastic state, which ultimately allows for subsequent filament stretching as usual.

Yarns and knitted sample swatches were manufactured in lab scale from the monofilaments for the purpose of characterising the newly developed surface properties. These samples could then be assessed for their hydrophobic and soilrepellent characteristics as well as their durability during use. For an industrial production of these ferromagnetic structured fibres further research together with a fibre manufacturer is necessary to scale up the spinning process.

Hohenstein Institute

We would like to thank the research association, Forschungskuratorium Textil e.V. for its financial support of the research project AiF-No. 15142 N/1. This project was carried out under the auspices of the Arbeitsgemeinschaft industrieller Forschungsvereinigungen e.V., AiF, and financed within the budget of the Federal Ministry of Economics and Technology (BMWi) through the programme to promote joint industrial research and development (IGF). In addition, we would like to thank our partner in the project, whose expertise contributed significantly to the successful completion of the research programme. We would also like to thank all the members of the committee that accompanied the project. Their professional competence and openness to discussion aided in successful completion of the venture.