Reliability and resilience of electrical transmission & distribution components gets a boost with fiber-reinforced composites Fiber-reinforced polymer composites are prized for their exceptional strength-to-weight ratio, high stiffness, durability, and resistance to corrosion, chemicals, and environmental exposures. Because of their inherent dielectric properties, glass fiber reinforced composites have long been used in electrical transmission and distribution applications such as insulators, arresters and other pole line hardware.

The breadth of the materials includes Polystrand™ unidirectional tapes made with continuous glass fiber and an expanding variety of resins such as polypropylene (PP), polyethylene (PE), polyethylene terephthalate (PET), polyketone (PK), polyamide (PA), and others, and Fiber-Line™ engineered fiber tapes, made using uniquely processed fibers including carbon, glass, and aramid. Gordon Composites™ continuous glass and carbon fiber bar stock, laminates, and composite springs, including springs for high-temperature industrial applications Fiber-Line™ engineered high-performance fibers, including coated, twisted, and custom-wound aramid, glass, carbon, HMPE, and LCP fibers

Continuous Fiber Composite Panels OnForce™ Long Glass Fiber Reinforced Polypropylene Composites Long Glass Fiber Reinforcement

Complēt™ MT Long Glass Fiber Blower Vacuum Complēt™ MT Long Glass Fiber Reinforced Piranha Propeller Complēt™ MT Long Glass Fiber Reinforced Nylon 6 used in watercraft propeller blade

Complēt™ MT Long Glass Fiber Blower Vacuum Complēt™ MT Long Glass Fiber Reinforced Piranha Propeller Complēt™ MT Long Glass Fiber Reinforced Nylon 6 used in watercraft propeller blade

Complēt™ MT Long Glass Fiber Blower Vacuum Complēt™ MT Long Glass Fiber Reinforced Piranha Propeller Read how long fiber composites helped Piranha Propellers add toughness and design flexibility

Continuous fiber reinforced thermoset composites combine high molecular weight resins with glass or carbon fibers. Continuous fiber reinforced thermoplastic composites are produced by pulling continuous glass rovings through thermoplastic resin to impregnate the fibers and form a unidirectional tape. The graph above shows the result of tensile load applied longitudinally to three laminate samples made with Polystrand™ continuous glass fiber reinforced polypropylene in 2-, 4- and 6-ply configurations, illustrated below.

Advanced Composites Explained Complēt™ MT Long Glass Fiber Blower Vacuum Complēt™ MT Long Glass Fiber Reinforced Piranha Propeller

Advanced Composites Explained Complēt™ MT Long Glass Fiber Blower Vacuum Complēt™ MT Long Glass Fiber Reinforced Piranha Propeller

Complēt™ long carbon fiber reinforced nylon composite replaced aluminum to provide better fatigue resistance and reduce weight Complēt™ long glass fiber reinforced nylon composite supports the weight of a 25-pound motor without creep while being lower in weight and less costly to produce Complēt™ long glass fiber reinforced nylon composite consolidated multiple metal components into a unified seat shell permitting weight and cost reductions