Covestro AG and its research partners have developed elastic textile fibres using CO2-based thermoplastic polyurethane (TPU).
In two joint research projects, Covestro and its partners, including the Institute of Textile Technology at RWTH Aachen University and various textile manufacturers, are developing the production process on an industrial scale, the company announced in July.
The materials can be used for stockings and medical textiles and might replace conventional elastic fibres based on crude oil, Covestro added.
The elastic fibres are made with a chemical precursor cardyon which is partially made of CO2 instead of oil.
“That’s a further, highly promising approach to enable ever broader use of carbon dioxide as an alternative raw material in the chemical industry and expand the raw materials base,” said Dr. Markus Steilemann, CEO of Covestro.
“Our goal is to use CO2 in more and more applications in a circular economy process and save crude oil.”
Sustainable production process
The fibres are made from CO2-based TPUs using a technique called melt spinning, in which the TPU is melted, pressed into very fine threads and finally processed into a yarn of endless fibres.
Unlike dry spinning, which is used to produce conventional elastic synthetic fibres such as Elastane or Spandex, melt spinning eliminates the need for environmentally harmful solvents.
A new chemical method enables carbon dioxide to be incorporated in the base material, which also has a better CO2 footprint than traditional elastic fibres.
“The CO2-based material could be a sustainable alternative to conventional elastic fibres in the near future,” said Professor Thomas Gries, Director of the Institute of Textile Technology at RWTH Aachen University.
“Thanks to our expertise in industrial development and processing, we can jointly drive establishment of a new raw materials base for the textile industry.”
Development of the method of producing fibres from CO2-based thermoplastic polyurethane has been funded by the European Institute of Innovation and Technology (EIT).
The process will now be optimised as part of the “CO2Tex” project, which is to be funded by the German Federal Ministry of Education and Research (BMBF).
“CO2Tex” is part of “BioTex Future,” a project initiative of RWTH Aachen University. The initiative is devoted to developing production and processing technologies to facilitate the future market launch of textile systems from bio-based polymeric materials.
Development partners display interest
What makes the CO2-based TPU fibres so special is their properties: They are elastic and tear-proof and so can be used in textile fabrics.
Initial companies from the textile and medical engineering sectors have already tested the CO2-based fibres and processed them into yarns, socks, compression tubes and tapes.
The aim of launching CO2-based textiles on the market is to promote a material cycle in the textile and clothing industry based on sustainable resources.
Source: www.european-rubber-journal.com