STAMFORD, Conn., September 2, 2019 – At this year’s Composites Europe trade show in Stuttgart on September 10-12, Hexcel will promote an array of composite technologies that were developed to benefit design engineers working in Automotive, Marine, Sport, and Wind Energy industries.
Innovations on display include Hexcel’s surfacing prepregs and semi-pregs for wind turbine blades and boat building. Providing a tough, durable and ready-to-paint surface without using in-mold coats, these fiber-reinforced matrix products shorten manufacturing cycles and reduce material costs. HexPly® XF2 prepreg has a ready-to-paint surface, straight from the mold, and saves at least two hours of takt time for wind blade production. A leading boat builder has manufactured a composite panel to demonstrate the benefits of HexPly® XF2 surface prepreg combined with Hexcel’s SuperFIT™ technology. Marine customers in the U.K. are provided expert support by Mouldlife, part of Hexcel’s Official Distributor network.
Hexcel is also proud to be displaying the latest golf shaft design from True Temper, made from HexTow® carbon fiber. The new Project X Smoke Green shafts utilize Hexcel’s HexTow® HM63 carbon fibers with the plies angled to provide added stability for the strongest swingers. “HexTow® HM63 was the perfect fiber for our new Smoke Green shaft. This shaft is designed for the strongest golfers in the world, and the high modulus of the HexTow® HM63 fiber allows us to build an extremely stable yet lightweight shaft,” said Don Brown, senior director of marketing and innovation for True Temper.
HexTow® HM63 PAN based continuous fiber is available in 6,000 (6K) and 12,000 (12K) filament count tows and is preferred for sporting applications requiring high strength and high modulus performance. The fiber has been surface treated and sized to improve its handling characteristics, interlaminar shear strength, compressive strength, and structural properties.
Bike wheel manufacturer Corima has used Hexcel’s composite materials for many years to manufacture competition wheels used by cycling champions. Corima’s latest 3-spoke wheel will be displayed at Composites Europe, showcasing the highly effective use of Hexcel’s carbon fiber prepreg and reinforcements. With this new aerodynamic 3-spoke wheel, race competitors are exceeding speeds of 100km per hour in time trials. The wheel is compression molded using structural foam and Hexcel’s lightweight PrimeTex® 98gsm 3k fabrics and HexPly® prepreg. Corima perfected the design using their in-house CAD, FEA and prototyping, plus wind-tunnel and track tests. The benefits are superior stiffness for enhanced power transfer, vibration absorption for a quiet and more comfortable ride, and reliability and lightness.
Hexcel’s HiMax™ DPA (Dot Pattern Adhesive) reinforcements are non-crimp fabrics supplied pre-tacked, allowing multiple fabrics to be laid-up more easily in preparation for resin infusion. Providing an optimal, consistent level of adhesion, they allow a faster and more consistent resin flow, as well as eliminating the use of spray adhesive for a healthier working environment and lower risk of contamination. HiMax™ DPA fabrics are widely used in boat building, where they are simply unrolled and applied to the mold or core layer before introducing resin, reducing lay-up times by up to 50%.
Hexcel’s automotive promotions focus on the company’s mastery of prepreg technology, where fiber reinforcements are supplied pre-impregnated with precise amounts of epoxy resin. HexPly® M901 prepreg was developed specifically for composite leaf springs, allowing weight savings of up to 70% to be achieved compared to traditional steel designs. Composite leaf springs resist corrosion, are easy to integrate into suspension systems, and provide very high levels of performance. Hexcel’s display at Composites Europe will include a composite leaf spring manufactured by ZF using new HexPly® M901 glass fiber prepreg that cures in less than 15 minutes and provides 15% higher mechanical performance than competing products with enhanced fatigue properties. It also operates at high temperatures, with a Tg of up to 200°C following a post cure.
Hybrid structures are a growing trend in automotive design to address future crash test requirements, particularly for battery protection in electric cars. Volkswagen has developed a hybrid side sill demonstrator that combines fiber-reinforced plastic (FRP) with metal and was developed by Hexcel in conjunction with Dresden University. The hybrid construction allows for optimum performance including weight savings, enhanced safety, increased energy absorption, impact protection, and production flexibility. Hexcel’s HexPly® fast cure self-adhesive prepreg cures and bonds to metals, including aluminum or oily steel, in a highly efficient one-step process.
Hexcel will also display a lightweight CFRP transmission cross member produced from Hexcel’s high performance HexMC®-i 2000 molding compound. Designed to connect the chassis together and support vehicle transmission, the transmission cross member was developed by Hexcel in partnership with the Institute of Polymer Product Engineering (at Linz University), Engel and Alpex. Hexcel’s HexMC®-i 2000 was selected as the best-performing molding compound on the market, curing in as little as two minutes to produce strong, lightweight parts that resist fatigue and corrosion.
To produce the transmission cross member HexMC®-i 2000 preforms are laid up in Alpex molds and compression-molded in a v-duo press that was tailored for the application by Engel. Ribs, aluminum inserts, and other functions can be molded into the part using the single-stage process, reducing component count. Any offcuts from the preforms can be interleaved between the plies of material to provide additional reinforcement in key areas, which means that the process generates no waste.
Hexcel Corporation is a leading advanced composites company. It develops, manufactures and markets lightweight, high-performance structural materials including carbon fibers, specialty reinforcements, prepregs and other fiber-reinforced matrix materials, honeycomb, adhesives, engineered core and composite structures for use in commercial aerospace, space and defense and industrial applications.
Rachel Owen Grace Bilney
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