Laser welding of technical textiles

Laser welding of technical textiles

As part of the research project (AiF No. 17031 N) "Absorber systems for the laser welding of textiles", scientists at the Hohenstein Institute (Bonnigheim) and the DWI Leibnitz Institute for Interactive Materials (Aachen) have developed new absorber systems for laser welding technical textiles in the infrared spectrum

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As part of the research project (AiF No. 17031 N) "Absorber systems for the laser welding of textiles", scientists at the Hohenstein Institute (Bonnigheim) and the DWI Leibnitz Institute for Interactive Materials (Aachen) have developed new absorber systems for laser welding technical textiles in the infrared spectrum. The researchers have already used them to weld all kinds of different textile materials.

With the results of their research, the scientists have overcome one of the main challenges of laser welding: only a few textiles absorb laser radiation in the near-infrared light spectrum and are therefore intrinsically suitable for laser welding. To join other textiles successfully, you have to apply absorber materials to the proposed locations of the seams which absorb the near-infrared light, melt and so join themselves together. However, the absorbers that were commercially available until now caused discolouring around the seams on light-coloured materials and so their potential applications were limited.

The new absorbers, on the other hand, produce a technically high-quality bond between textile materials. The seams are resistant to liquids, mechanically strong, flexible and free of any discolouration. The way is therefore open for laser welding to be used as an alternative, highly effective and promising technology for bonding textiles.

Especially when it comes to producing technical and medical textiles, laser welding offers a number of advantages over traditional joining methods. The seams can be made watertight in a single process. This means that, in contrast to traditional seams, the subsequent "taping" of the seams, whereby special tapes are applied to seal the holes caused in the textile material by the stitching needles, is no longer necessary. Seams created by laser welding are also flat, stretchy, flexible and proof against liquids and gases and they have impressively high tensile strength.

During the project, the setting parameters for laser welding such as the temperature, speed and pressure were adjusted to suit various different absorbers and textiles. Laser welding is suitable both for one-off manufacture and for manufacturing with a high degree of automation. Minimising the number of process stages and increasing the quality, together with the high flexibility of the process, will help small and medium-sized companies to increase their turnover and give them competitive advantages over the users of conventional textile joining technologies.

For further information:
Hohenstein Institute
Dr. Edith Classen
Email: e.classen@hohenstein.de

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