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Fiber made of single-walled carbon nanotubes and polyacrylonitrile
Georgia Institute of Technology lab coordinator Marilyn Minus examines a composite fiber made of single-walled carbon nanotubes and polyacrylonitrile.
Strong and versatile carbon nanotubes are finding new applications in improving conventional polymer-based fibers and films. For example, composite fibers made from SWNTs and polyacrylonitrile -- a carbon fiber precursor -- are stronger, stiffer and shrink less than standard fibers.
Nanotube-reinforced composites could ultimately provide the foundation for a new class of strong and lightweight fibers with properties such as electrical and thermal conductivity unavailable in current textile fibers. Researchers from the Georgia Institute of Technology, Rice University, Carbon Nanotechnologies, Inc. and the U.S. Air Force have been developing new processes for incorporating nanotubes into fibers and films.
To learn more, see the Aug. 30, 2004, Georgia Tech Research News, "New Class of Fibers: Composites Made with Carbon Nanotubes Offer Improved Mechanical & Electrical Properties." (Date of Image: April 2, 2004)
Credit: Photo by Gary Meek; courtesy Georgia Tech
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