COLORANT CHROMATICS HIGH-TEMPERATURE POLYMER FORMULATIONS PRODUCT SELECTION GUIDE COLORANT CHROMATICS HIGH TEMPERATURE COMPOUNDS PROPERTY ISO Test Method Units PES PPSU PEI LCP PEEK PSU PHYSICAL Density 1183 — 1.37 1.29 1.27 1.40 1.30 1.24 Mold Shrinkage Flow/X-flow 294–4 % 0.8/0.85 0.7/XX 0.6/0.7 0/0.7 1.0/1.3 0.7 MECHANICAL Tensile Strength 527 Mpa 85 70 85 200 100 70 Tensile Elongation Yield 527 % 7 7.5 6 — — 6 Tensile Elongation Break 527 % >25 >60 60 3 30 >50 Izod Notched 180 kJ/m2 7 55 5 95 7 5.5 THERMAL HDT 1.8 MPa 75 °C 205 200 190 190 150 175 FLAMMABILITY Flame Rating UL-94 — V-0 V-0 V-0 V-0 V-0 HB ADDITIONAL Steam Sterilizable — Cycles 100 2000 2000 1500 1000 100 CUSTOM OPTIONS Color — — Yes Yes Yes Yes Yes Yes Reinforced — — Yes Yes Yes Yes Yes Yes Conductive — — Yes Yes Yes Yes Yes Yes Lubricated — — Yes Yes Yes No Yes Yes Radiopaque — — Yes Yes Yes No Yes Yes Trade Names — — Veradel Ultrason E Radel Ultrason P Ultem Vectra Zenite Xydar KetaSpire Victrex Vestakeep Udel Ultrason S Avient high temperature precolored and specialty compounds are your solutions for high performance products. Customized with high quality pigments and select fiber reinforcements, fillers and additives, these solutions are designed to meet the performance your application requires. With more than 3,000 unique color shades, including translucent or opaque effects, we will make your application look unmistakable.

FL.Datasheet WireHarnessYarn.indd FIBER OPTICAL CABLES MOVING HIGH PERFORMANCE FIBERS FORWARD Key Features • Available flat, twisted, or cord • Reduction in overall weight & energy usage • High temperature resistance • Protection from thermal degradation • Various colors available for easy identification • Abrasion resistant FIBER-LINE® FIBERS FOR WIRE HARNESS YARN • Kevlar® Para-Aramid • Nomex® Meta-Aramid • Technora® Para-Aramid • PET Polyester FIBER-LINE® PERFORMANCE ADDING COATINGS • FIBER-LINE® Colorcoat™: Color Identification • FIBER-LINE® Wearcoat™: Abrasion & High-Temperature Resistance • FIBER-LINE® Bondcoat™: Adhesion & Bonding • FIBER-LINE® Flamecoat™: Flame retardancy Overview • FIBER-LINE® provides a wide range of products utilized for wire harnesses. Packages can be supplied on colored, embossed and/or slit tubes. WIRE HARNESS YARN FIBERS PROCESS PRODUCTS Product ID FIBER-LINE® Coating Base Fiber Break Strength Yield Geometry Nominal Diameter Description NX1200T FIBER-LINE® WearcoatTM FIBER-LINE® ColorcoatTM Nomex 13 LBs (5.9 KGs) 9930 FT/LB (6672 M/KG) Round/Flat .438mm High-temperature resistant coating with colorant for identification K400T FIBER-LINE® WearcoatTM Kevlar® 20 LBs (9.1 KGs) 30303 FT/LB (20362 M/KG) Round/Flat .245mm High-temperature resistant coating NX1200 1x3 FIBER-LINE® ColorcoatTM Nomex 39.9 LBs (18.1 KGs) 3225 FT/LB (2167 M/KG) Round .815mm Color coated for identification G150 1x3 FIBER-LINE® WearcoatTM Glass 16.7 LBs (7.6 KGs) 12987 FT/LB (8726 M/KG) Round .372mm High-temperature resistant coating NX200T N/A Nomex 2.5 LBs (1.1 KGs) 68166 FT/LB (45804 M/KG) Round/Flat .168mm Fiber twisted to improve handling MOVING HIGH PERFORMANCE FIBERS FORWARD This data is provided for informational purposes only, and does not constitute a specification.

Beyond traditional marking, Colorant Chromatics™ UV Laser Marking Technology provides an ability to apply ultraviolet (UV) laser marking to FEP. The unique formulation of Colorant Chromatics UV Laser Marking Technology enables a permanent and gentle marking of the cable surface. Examples include: • Data transmission cables • Optical fiber cables PRODUCT BULLETIN 1.844.4AVIENT www.avient.com Copyright © 2022, Avient Corporation.

CRTM™ (continuous resin transfer molding) panels are thermoset composite sandwich panels with tailored, multi-axial fiber reinforcements, high-fiber volume and very low void content. Better control of fiber alignment and resin kinetics Polystrand™ Continuous Fiber Reinforced Sandwich Panels

In solvolysis, the chain length of matrix polymers is reduced toward monomers while removing the matrix from the fibers so that both the fibers and matrix chemical products can be recovered. Composites can be ground into small particles for use as engineered fillers or maintained at larger scales where fibers remain of reasonable length to be reused as fiber reinforcement in their next life.   To make composites more circular, explore a variety of fibers and a range of resins.

Avient enhances virtual simulation and prediction services for structural applications of its fiber-reinforced polymer materials. Currently, 168 long fiber models are available for Avient materials, representing nearly half of the long fiber models in Digimat. Sustainable infrastructure solutions that increase energy efficiency, renewable energy, natural resource conservation and fiber optic / 5G network accessibility  

C A R C O M P O N E N T M A N U FAC T U R E R A C O U S T I C A N D T H E R M A L M A N A G E M E N T S Y S T E M S • High rPET content without loss of tenacity • High volume production • Color options • Offered a chain extender that supports stable spinning and maintains fiber tenacity to help achieve targeted rPET content • Provided technical support for production scale-up • Proposed different color concentrates suitable for application and polymer grade Cesa™ Fiber Additives – chain extenders for recycled polyester (rPET) KEY REQUIREMENTS WHY AVIENT?

Long Fiber Technology | Articles , Metal Replacement Advanced computer-aided engineering (CAE) software, when complemented by in-depth design and material knowledge, facilitates precise prediction of the behavior of fiber-reinforced polymer materials. Collaboration with Hexagon and its Digimat Platform to more accurately predict part performance for fiber-reinforced thermoplastics.

Thermoplastic Continuous Fiber Reinforced Tapes & Laminates Take a closer look at the benefits of continuous fiber reinforced thermoplastic composites. Guide to processing Polystrand™ Continuous Fiber Reinforced Thermoplastic Composites

Continuous Fiber Reinforced Thermoplastic Composites Explore Structure and Performance of Continuous Fiber Thermoplastics to learn:  What continuous fiber reinforced thermoplastic composites are, and how they differ from other fiber reinforced polymer (FRP) composite materials