To modify and expand on the structural performance of the base resin, these materials are formulated with a range of reinforcing additives, including short glass or carbon fibers, minerals or glass beads. Advanced PC, PPS and LCP formulations to help customers to build 3D circuits on molded part surfaces; supporting high design flexibilty, multi-function integration, size miniaturization and weight reduction, even in high heat processes such as SMT Edgetek™ Glass-Filled Thermoplastics provided toughness and stiffness to fishing rod handle

The NEUSoft express colors offer high-performance TPUs in neat or 20% barium sulfate-filled formulations. This includes Trilliant HC8910 glass-filled polyketone (PK) formulations with a lower carbon footprint than traditional nylon (PA6 and PA66) formulations for a high-performance alternative in applications such as biopharmaceutical clamps.

Also, the glass-filled polyketone (PK) formulations provide comparable performance to nylon equivalents with the added benefit of a lower carbon footprint for a more sustainable option. 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

In addition, the polyketone-based glass-filled formulations offer comparable performance to nylon, plus the benefit of enabling a lower carbon footprint for a more eco-conscious alternative. 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

Glass Milled Glass + Glass Beads To prepare your equipment for metal-filled compounds, start with glass-filled material in the same base resin—it’s less expensive.

Nymax™ REC Glass-Filled Formulations provide mechanical performance and stable raw material supply for utility box stiffeners

Homepage // News Center // Avient Launches New Bio-Filled Polymer Grades at Fakuma 2021 The new reSound™ NF bio-filled grades are based on polymers such as polypropylene (PP) with 15 to 20 percent bio-based filler. 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

Mold to compress and cool into shape 4 CFRTP is preheated and inserted into tool 3 Material heating, melting, and conveying 2 Solid resin infeed 1 5 ON-ROAD TRANSPORTATION Underbody shields, underhood enclosures, interior components, storage OFF-ROAD VEHICLES Skid plates, doors, seat structures, exterior panels & moldings Traditionally, molding with short and long glass-filled polypropylene to gain flexural performance over unfilled polypropylene also results in a loss of impact resistance. As illustrated here, molding with continuous fiber reinforced composites enables improved flexural performance over filled polypropylene as well as increased impact resistance and overall weight reduction. SPORTING GOODS Boots, bindings, protective equipment MARINE Hull reinforcement, seats, paddles 50% Long Glass Fiber Reinforced PP 50% Long Glass Fiber Reinforced PP + 0° CFRTP 50% Long Glass Fiber Reinforced PP + 0°/90° CFRTP 50% Long Glass Fiber Reinforced PP + 0°/90°/90°/0° CFRTP 17K 28K 29K 50% Long Glass Fiber Reinforced PP + 0°/90°/0° CFRTP 29K 31K +60.7% FLEXURAL STRENGTH (ASTM D7264) IMPACT RESISTANCE (ASTM D3763) 50% Long Glass Fiber Reinforced PP 50% Long Glass Fiber Reinforced PP + 0° CFRTP 50% Long Glass Fiber Reinforced PP + 0°/90° CFRTP 50% Long Glass Fiber Reinforced PP + 0°/90°/0° CFRTP 50% Long Glass Fiber Reinforced PP + 0°/90°/90°/0° CFRTP E n e rg y at T o ta l ( J) F o rc e a t P e ak ( kN ) 18 16 14 12 10 8 6 4 2 0 6.0 5.9 4.0 3.0 2.0 1.0 0.0 11.2 15.1 14.6 12.7 16.4 1.2 1.9 2.8 4.0 5.0 +58.3% +34.8% 50% Long Glass Fiber Reinforced PP 50% Long Glass Fiber Reinforced PP + 0° CFRTP 50% Long Glass Fiber Reinforced PP + 0°/90° CFRTP 50% Long Glass Fiber Reinforced PP + 0°/90°/90°/0° CFRTP 17K 28K 29K 50% Long Glass Fiber Reinforced PP + 0°/90°/0° CFRTP 29K 31K +60.7% FLEXURAL STRENGTH (ASTM D7264) IMPACT RESISTANCE (ASTM D3763) 50% Long Glass Fiber Reinforced PP 50% Long Glass Fiber Reinforced PP + 0° CFRTP 50% Long Glass Fiber Reinforced PP + 0°/90° CFRTP 50% Long Glass Fiber Reinforced PP + 0°/90°/0° CFRTP 50% Long Glass Fiber Reinforced PP + 0°/90°/90°/0° CFRTP E n e rg y at T o ta l ( J) F o rc e a t P e ak ( kN ) 18 16 14 12 10 8 6 4 2 0 6.0 5.9 4.0 3.0 2.0 1.0 0.0 11.2 15.1 14.6 12.7 16.4 1.2 1.9 2.8 4.0 5.0 +58.3% +34.8% Application design Modeling & simulation Prototyping & validation Material selection Composite/ resin compatibility Custom formulations Mold filling analysis Technical support Process optimization PROCESSING MATERIALS Material selection is crucial to an application’s success.

Edgetek™ PKE Glass-Filled Formulations The Edgetek PKE Glass-Filled (GF) series consists of specialty engineered, glass-reinforced polyketone (PK) thermoplastics. Available with 10–40% short glass fiber fillers, these formulations provide superior chemical resistance, low moisture uptake, excellent dimensional stability, and high impact and wear resistance. KEY CHARACTERISTICS • Excellent chemical resistance • Low moisture uptake • Comparable dimensional stability to nylon • Reinforced with 10–40% short glass fiber • High impact and wear resistance • Cost competitive • Eco-conscious alternative to PA66 and PA6 • Non-halogen, flame retardant performance MARKETS & APPLICATIONS These glass-reinforced materials meet the challenges found in chemical, fuel contact, and high moisture environments

Product Name H15 H XF V2 70 MF5200-5004 NHFR V2 HS MF5200-5005 NHFR V2 RS H MF5200-5006 NHFR V2 RS HS H6 H XF V0 70 H20 H XF V0 T 70 H6 T/05 H XF V0 70 H6 T/10 H XF V0 70 H6 T/20 XF V0 T 70 H6 GF/10 XF V070 H8 GF/20 XF V0 70 H12 GF/25 H XF V0 70 H6 GF/30 XF V0 70 PE H XF V0 70 Polymer PP PE Flammability V2 V2 V2 V2 V0 V0 V0 V0 V0 V0 V0 V0 V0 V0 UL Listed No No No No No No No No No No No No No Yes Reinforcement Unfilled Unfilled Talc Talc Unfilled Unfilled Talc Talc Talc Glass Filled Glass Filled Glass Filled Glass Filled Unfilled Density (g/cm3) 1.03 0.9 0.98 1.05 1.07 1.06 1.08 1.15 1.16 1.11 1.25 1.32 1.35 1 MFI, 230°C/2.16 kg 13 20 23 20 5.5 20 6 6 6 6 7 12 5.5 E-Modulus (Tensile Modulus - Mpa) 1900 1500 2400 2600 2500 2500 2500 3000 3000 4300 6500 7500 8250 2000 Tensile Strength (Mpa) 25 30 32 30 26 20 26 25 23 55 70 75 78 20 Elongation (%) Product Name C10 XF V2 70 C10 H XF V0 70 C10 H XF V0 T C10 T/10 XF V0 70 C10 T/20 XF V0 70 C6 GF/30 H XF V0 70 C2 GF/20 XF V0 T 70 C6 GF30 H UV XF V0 70 GREY X2 70 GREY X3 70 Resin Chemistry COPO HOMO + COPO Polymer PP Flammability V2 V0 V0 V0 V0 V0 V0 V0 V0 V0 UL Listed No No No No No Yes No No No No Reinforcement Unfilled Unfilled Unfilled Talc Talc Glass Filled Glass Filled Glass Filled Glass Filled Glass Filled Density (g/cm3) 1.01 1.06 1.09 1.16 1.28 1.35 1.23 1.38 1.24 1.25 MFI, 230°C/2.16 kg 7 10 10 9 10 4.5 2.5 4.5 4 0 E-Modulus (Tensile Modulus - Mpa) 1800 1500 1300 1500 2400 8000 5000 8000 5250 6000 Tensile Strength (Mpa) 18 15 20 15 15 60 45 60 40 45 Tensile Strain at Break (ISO 527-2) (%) 63 We also provide options for custom formulations using recycled polypropylene (PP) and polyethylene (PE). 1.844.4AVIENT www.avient.com Copyright © 2025, Avient Corporation.