Case Study: Spread Tow Fabrics reduce waveboard weight
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Spread-tow fabrics reduce waveboard weight entation possible, both in the plane and out of the plane, the fiber properties can be exploited most efficiently to carry ten- sile and compressive loads, says Oxeon. TeXtreme performs similarly to a cross- ply construction of unidirectional tape, but, because it is a fabric, it is said to be considerably more drapable and less sus- ceptible to delamination. It has a higher fiber volume fraction with fewer interlac- ing points than a traditional woven fabric and, therefore, correspondingly lower crimp frequency and crimp angle. Due to its construction with long fiber floats (20 to 50 mm), fiber waviness is minimized, allowing the filaments to immediately carry tension or compression load with- out first having to straighten. Textreme can be produced at different tape areal weights for optimized fabric construc- tion, and because it uses tapes instead of yarns in the weaving process, May notes, the flatter fabric allows a better surface finish than conventional carbon fabric. The fabric for Fanatic was produced with an 80 gsm warp and a 40 gsm weft, giving the board extreme stiffness in one direc- tion, adds May, which improves system stiffness and breakage force. “The result is a very light and lively Fanatic FreeWave TeXtreme 95, which weighs 10 percent less than our current top level technology,” concludes May. For windsurfing, Fanatic (Molln, Austria) recently introduced a new version of its FreeWave board, called FreeWave TeX- treme, made with trademarked TeXtreme spread carbon tow fabric from Oxeon AB (Boras, Sweden). In 2010, Fanatic experimented with new materials to improve waveboard mechani- cal properties. Aware of TeXtreme’s use in similar applications, the design team started to analyze how to incorporate the material, including how to reduce weight without diminishing performance. Fanatic product engineer Jürgen May says a cooperative effort with Oxeon engineers enabled Fanatic designers to “reach a very low material weight of only 120 g/m 2 , and still achieve our technical requirements.” Use of an unbalanced fabric resolved several technical problems. TeXtreme combines tow spreading and tape weaving. By flattening and arranging the fibers in the woven structure in the straightest ori- APPLICATIONS Oxeon AB Norrby Långgata 45 SE-504 35 Borås Sweden Phone: +46 33 20 59 70 Fax: +46 33 20 59 79 E-mail: [email protected] Web: www.oxeon.se Reprinted from the January 2011 HIGH-PERFORMANCE COMPOSITES Magazine and Copyright © 2011 by Gardner Publications, Inc., 6915 Valley Ave., Cincinnati, Ohio 45244-3029.
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Transcript of Case Study: Spread Tow Fabrics reduce waveboard weight
Spread-tow fabrics reduce waveboard weight
entation possible, both in the plane and out of the plane, the fiber properties can be exploited most efficiently to carry ten-sile and compressive loads, says Oxeon. TeXtreme performs similarly to a cross-ply construction of unidirectional tape, but, because it is a fabric, it is said to be considerably more drapable and less sus-ceptible to delamination. It has a higher fiber volume fraction with fewer interlac-ing points than a traditional woven fabric and, therefore, correspondingly lower crimp frequency and crimp angle. Due to its construction with long fiber floats (20 to 50 mm), fiber waviness is minimized, allowing the filaments to immediately carry tension or compression load with-out first having to straighten. Textreme can be produced at different tape areal weights for optimized fabric construc-tion, and because it uses tapes instead of yarns in the weaving process, May notes, the flatter fabric allows a better surface
finish than conventional carbon fabric. The fabric for Fanatic was produced with an 80 gsm warp and a 40 gsm weft, giving the board extreme stiffness in one direc-tion, adds May, which improves system stiffness and breakage force.
“The result is a very light and lively Fanatic FreeWave TeXtreme 95, which weighs 10 percent less than our current top level technology,” concludes May.
For windsurfing, Fanatic (Molln, Austria) recently introduced a new version of its FreeWave board, called FreeWave TeX-treme, made with trademarked TeXtreme spread carbon tow fabric from Oxeon AB (Boras, Sweden).
In 2010, Fanatic experimented with new materials to improve waveboard mechani-cal properties. Aware of TeXtreme’s use in similar applications, the design team started to analyze how to incorporate the material, including how to reduce weight without diminishing performance. Fanatic product engineer Jürgen May says a cooperative effort with Oxeon engineers enabled Fanatic designers to “reach a very low material weight of only 120 g/m2, and still achieve our technical requirements.”
Use of an unbalanced fabric resolved several technical problems. TeXtreme combines tow spreading and tape weaving. By flattening and arranging the fibers in the woven structure in the straightest ori-
APPLICATIONS
Oxeon ABNorrby Långgata 45
SE-504 35 BoråsSweden
Phone: +46 33 20 59 70Fax: +46 33 20 59 79
E-mail: [email protected]: www.oxeon.se
Reprinted from the January 2011 HIGH-PERFORMANCE COMPOSITES Magazine
and Copyright © 2011 by Gardner Publications, Inc., 6915 Valley Ave., Cincinnati, Ohio 45244-3029.
