XRU-2307 FEP101 30% GLASS BEADS XRU-2308 PFA 201SH 30% GLASS BEADS PP BLUE ORI

Glass Fiber and Glass Beads   Select from a wide variety of glass fibers and beads to meet the challenges of your specific application.  

Glasforms™ pultruded and filament wound continuous glass and carbon fiber rods, tubes, and custom profiles Gordon Composites™ continuous glass and carbon fiber barstock and laminates Gordon Glass™ archery bow limbs

Long glass fiber reinforced grades of Complēt moisture-resistant nylon feature surfaces that are smooth and virtually free of visible fiber, making it suitable for a wide range of consumer applications.  Complēt moisture-resistant nylon 6 and 6/6 grades are globally available in several fiber loading levels (weight percentages) using long glass fiber, long carbon fiber, or hybrid combinations. Light-weighting solutions that replace heavier traditional materials like metal, glass and wood, which can improve fuel efficiency in all modes of transportation

ThermoBallistic thermoplastic panels are thermally formed with e-glass and thermoplastic resin systems, offering a cost-competitive alternative to ballistic-resistant materials made with other fibers or thermoset resins. GlasArmor thermoset panels are constructed from layers of woven e-glass fiber reinforcements with a proprietary resin system. Light-weighting solutions that replace heavier traditional materials like metal, glass and wood, which can improve fuel efficiency in all modes of transportation and reduce carbon footprint  

The Edgetek PKE series includes short glass-reinforced formulations with 10-40 percent short glass fiber.     Barrier technologies that preserve the shelf-life and quality of food, beverages, medicine and other perishable goods through high-performance materials that require less plastic •    Light-weighting solutions that replace heavier traditional materials like metal, glass and wood, which can improve fuel efficiency in all modes of transportation •    Breakthrough technologies that minimize wastewater and improve the recyclability of materials and packaging across a spectrum of end uses

Formulations are available with glass, carbon or specialty fiber reinforcements, including glass/carbon hybrids, in engineering polymers ranging from polypropylene to PEEK. Light-weighting solutions that replace heavier traditional materials like metal, glass and wood, which can improve fuel efficiency in all modes of transportation

STRENGTH MEMBERS FIBERS PROCESSES PRODUCTS FIBER OPTICAL CABLES MOVING HIGH PERFORMANCE FIBERS FORWARD Key Features • Dielectric strength members • Sizes Available: 0.175 mm – 18.00 mm • Available Forms: Flat, Twisted, Cords, Rovings, & Jacketed • Shapes: Flat or round FIBER-LINE® FIBERS FOR STRENGTH MEMBERS • Kevlar® Para-Aramid • Vectran® Liquid Crystal Polymer (LCP) • Zylon® Polybenzyloate (PBO) • Carbon Fiber • Ultra High Molecular Weight Polyethylene (UHMWPE) • PET Polyester • Fiberglass • Nylon Polyamide • Technora® FIBER-LINE PERFORMANCE ADDING POLYMER JACKETS • LDPE, MDPE, HDPE** • PP** • ETFE** • Polyurethane** • PVC** • PFA** • PVDF** • EPC** Overview FIBER-LINE® develops, produces, and markets a full line of high performance strength members. G675/SC-10 Swellcoat® E-Glass 22.7 LBs (50 KG) 1835 Ft/LB (1233 M/KG) Flat TBD ???

KEY CHARACTERISTICS • Faster processing speeds (up to 1,000 m/min) at low wall thickness (100 µm) • Increased chemical resistance • Lower gel migration • ECCOH 6153 UV - optimized for Teroson • ECCOH 6154 UV - optimized for Unigel • High color rendition and compatibility with Avient masterbatch • High UV resistance • Very low shrinkage MARKET & APPLICATIONS Optical Fiber Cables including: • Stranded loose tubes – gel-filled/dry • Micro-modules • Tight buffer applications – gel-filled/dry STANDARD COMPLIANCE • IEC 60794 • NF XP C93-850-1-1:2020 • EN 50289-4-17:2016 • ISO 4892:2016 • ST/CNET/5843 (1998) PRODUCT BULLETIN GEL MIGRATION PERFORMANCE ECCOH LSFOH 6153/6154 UV grades offer greater gel migration performance compared to alternative ECCOH grades. Gel migration is measured using a quantitative internal method * 6151 can be supplied with UV protection * Values concluded from the simulation of materials rheological data and modelling standard extrusion tooling Pressure: can affect extruder performance, higher pressure gives a lower output at the same rpm Shear rate: has a relation with self-cleaning of the walls and mixing conditions Stress: can affect the surface of the product, less stress gives a better surface aspect MIGRATION OF GEL COMPOUND Gel Compound ECCOH™ 6151* ECCOH™ 6153 UV ECCOH™ 6154 UV Unigel Average Good Excellent Teroson Average Excellent Good Itcogel Average Good Excellent ECCOH™ 6151 ECCOH™ 6153 UV ECCOH™ 6154 UV ∆P (bars) 101 63 60 Shear Rate (1/s) 9 9 9 Stress (kPa) 127 79 75 Application example: Gel-filled stranded loose tube optical fiber cable www.avient.com Copyright © 2020, Avient Corporation.

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. More recently, traditional wood and metal utility poles and cross arms are increasingly being replaced by polymer composites, typically made with glass reinforcements and produced using pultrusion or filament winding.