Engineering 101

Computer Scientists Use Polymerization to Create Customized E-Textiles

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For the most part, the focus in designing wearable IT devices and garments has been on getting the IT right and then creating a garment that could support the device. Now, computer scientists at Saarland University show how special textiles can be produced in a comparatively easy way that integrates their functionality into textile fibers, thus opening up new use cases.

“Our goal was to integrate interactive functionalities directly into the fibers of textiles instead of just attaching electronic components to them,” says Jürgen Steimle, computer science professor at Saarland University. In his research group on human-computer interaction at Saarland Informatics Campus, he and his colleagues are investigating how computers and their operation can be integrated as seamlessly as possible into the physical world. This includes the use of electro-interactive materials.

Previous approaches to the production of these textiles are complicated and influence the haptics of the material. The new method makes it possible to convert textiles and garments into e-textiles, without affecting their original properties — they remain thin, stretchable and supple. This creates new options for quick and versatile experimentation with new forms of e-textiles and their integration into IT devices.

“Especially for devices worn on the body, it is important that they restrict movement as little as possible and at the same time can process high-resolution input signals,”explains Paul Strohmeier, one of the initiators of the project and a scientist in Steimle’s research group. To achieve this, the Saarbrücken researchers are using the in-situ polymerization process. Here, the electrical properties are “dyed” into the fabric: a textile is subjected to a chemical reaction in a water bath, known as polymerization, which makes it electrically conductive and sensitive to pressure and stretching, giving it so-called piezoresistive properties. By “dyeing” only certain areas of a textile or polymerizing individual threads, the computer scientists can produce customized e-textiles.

In their test runs, the researchers have produced gloves that can digitally capture hand movements, a zipper that transmits different electric currents depending on the degree of opening, and sports tapes that act as user interfaces that are attached to the body.

Also, materials other than textiles can be treated with the process. Audrey Briot, an artist from Paris, has created an evening gown with touch-sensitive feathers that generate sounds via a computer when touched. She polymerized the feathers using the Saarbrücken computer scientists’ method. The dress was nominated for the STARTS Prize of the European Commission.

A scientific paper on the process entitled “PolySense: Augmenting Textiles with Electrical Functionality using In-Situ Polymerization” was written by the Human-Computer Interaction Research Group at the Saarland Informatics Campus at Saarland University. Participating researchers from Saarland University were Prof. Dr. Jürgen Steimle, Dr. Paul Strohmeier, Dr. Marc Teyssier and Dr. Bruno Fruchard. Also involved were Cedric Honnet (MIT Media Lab), Hannah Perner-Wilson (Kobakant) and Dr. Ana C. Baptista (CENIMAT/I3N, New University of Lisbon). The paper was published in 2020 at the ACM Conference on Computer Human Interaction (CHI).

Source: Saarland University

 

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