Deccan Chronicle

Clothes that track body movements will become a reality

Deccan Chronicle | DC Correspondent

Published on: October 12, 2015 | Updated on: Invalid date

These fibres are not only stretchable but also conduct electricity

Representational Image. (Picture Courtesy: Pixabay)

Representational Image. (Picture Courtesy: Pixabay)

Melbourne: Researchers have created stretchable and electrically conductive fibres that can be braided and knitted using traditional techniques to create wearable garments that monitor human movement. The ability to arrange different types of fibres with predetermined spatial organisation gives us the colour, vibrancy and comfort we encounter in traditional textiles.
By replacing conventional fibres with those that can conduct electricity, researchers can allow for monitoring of human movement using wearable garments, and even to store the energy required to power such a function. Australian Research Council (ARC) Centre of Excellence for Electromaterials Science researchers have created new fibre structures and used traditional knitting and braiding techniques to introduce both of these capabilities to wearable structures.
A knitted textile based on the polymeric composite fibres, produced at the Australian National Fabrication Facility, is highly sensitive, stable and able to detect a wide range of human movement. The team demonstrated a working device with remote sensing capabilities using a knee sleeve prototype of the
fabric that 'talks' to a commercial wireless receiver. These fibres are not only stretchable but also conduct electricity. This combination of properties allows the fibres to respond to body movement.
For energy storage the materials that make up a battery have been braided into appropriate arrangements to deliver energy storage capabilities, researchers said. "We are able to take fundamental advances in materials science and engineering and to realise wearable structures for use in sports training and rehabilitation applications," said ARC Centre of Excellence for Electromaterials Science (ACES) Director Gordon Wallace.
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