Reduction in yellowing using Color Compensation Technology (CCT)   Reduced material consumption/cycle time/improved properties—nucleation Fast acting new generation nucleant for PE and PP; improved dimensional stability, thermal and mechanical properties    Laser marking replacing ink printing/labels Solvent-free, high-speed identification for Nd/YAG laser    Antiblock for PE/PP film Non-migrating additive system maintaining high gloss and printability  Antioxidants for PE, PP, TPE Thermal protection during converting/ downstream sterilization     Brand protection/ anticounterfeit Range of covert and non-covert systems    Volatiles/odor absorber for PE/PP Physical absorption of a wide range of molecules responsible for odor, VOC and potential extractables/ leachables in plastics   Healthcare use limitations apply—see below. You have the responsibility to conduct full-scale end-product performance testing to determine suitability in your application, and you assume all risk and liability arising from your use of the information and/or use or handling of any product.

© 2019, All Right Reserved Avient Corporation, 33587 Walker Road, Avon Lake, Ohio USA 44012 BUILDING AND CONSTRUCTION SUPPLIER H E A T E X C H A N G E R : G A S R E C O V E R Y • Resistance to corrosion and fouling • Good thermal conductivity • Good pressure resistance • Compatible with current processing methods – extrusion • Eliminated the effects of corrosion and fouling by replacing aluminum • Improved thermal performance over time • Developed a customized solution that utilized the customers existing extrusion processing methods Therma-Tech™ Thermally Conductive Formulation KEY REQUIREMENTS WHY AVIENT? THERMAL CONDUCTIVITY LEARN MORE AVIENT SOLUTION LEARN MORE © 2020, All Right Reserved Avient Corporation, 33587 Walker Road, Avon Lake, Ohio USA 44012 https://www.polyone.com/products/engineered-polymer-formulations/conductive-signal-radiation-shielding-formulations/therma Building and construction supplier

High strength and stiffness-to-weight ratio: Pultruded composites are strong and stiff, yet they are also lightweight. Electrical insulation: Fiberglass pultrusions can be engineered to be non-conductive, making them ideal for electrical applications where dielectric properties are required. However, if you need a composite material with high transverse strength or a complex geometry, then you may need to consider other options.

High strength and stiffness-to-weight ratio: Pultruded composites are strong and stiff, yet they are also lightweight. Electrical insulation: Fiberglass pultrusions can be engineered to be non-conductive, making them ideal for electrical applications where dielectric properties are required. However, if you need a composite material with high transverse strength or a complex geometry, then you may need to consider other options.

High strength and stiffness-to-weight ratio: Pultruded composites are strong and stiff, yet they are also lightweight. Electrical insulation: Fiberglass pultrusions can be engineered to be non-conductive, making them ideal for electrical applications where dielectric properties are required. However, if you need a composite material with high transverse strength or a complex geometry, then you may need to consider other options.

High strength and stiffness-to-weight ratio: Pultruded composites are strong and stiff, yet they are also lightweight. Electrical insulation: Fiberglass pultrusions can be engineered to be non-conductive, making them ideal for electrical applications where dielectric properties are required. However, if you need a composite material with high transverse strength or a complex geometry, then you may need to consider other options.

 To download a high-resolution image, please click here: FOR MEDIA USE ONLY  High-Temperature Pre-Colored, Color Concentrate and Formulated Solutions:  Additional featured solutions include Colorant Chromatics™ UV Laser Marking Additives, Colorant Chromatics™ Conductive Formulations, Colorant Chromatics™ ECTFE / ETFE Colorants, and PEEK and PEI-Siloxane (SILTEM™ resin*) Colorants & Pre-colored Solutions

BATTERY JUNCTION BOX Stat-Tech™ Static Dissipative & Electrically Conductive Formulations Surround™ EMI/RFI Shielding Formulations • Integrated EMI/RFI shielding • Lightweight • Easier to process vs metals MODULE CONNECTOR Therma-Tech™ Thermally Conductive Formulations • Flame resistance • Easy molding • Good stiffness and mechanical strength • Thermal conductivity EV CONNECTOR Edgetek™ PKE Polyketone Formulations • Excellent chemical resistance • Low moisture uptake • Non-halogenated flame retardant performance • Colorable (RAL Orange) • Reduced carbon footprint vs PA6 and PA66 COOLING SYSTEM Therma-Tech™ Thermally Conductive Formulations • Tensile strength • Chemical resistance • Thermal conductivity BATTERY FRAME Maxxam™ FR Flame Retardant Polyolefin Formulations Edgetek™ Engineered Polymer Formulations Polystrand™ Continuous Glass Fiber Reinforced Thermoplastics • Flame resistance • Easy molding • Lightweight • Non-halogenated flame retardant HOUSING TRAY OnForce™ Long Glass Fiber Reinforced Polypropylene Composites Stat-Tech™ Static Dissipative & Electrically Conductive Formulations Polystrand™ Continuous Glass Fiber Reinforced Thermoplastics • Design integration & freedom • Structural performance • EMI shielding BATTERY MANAGEMENT CONTROLLER Stat-Tech™ Static Dissipative & Electrically Conductive Formulations Surround™ EMI/RFI Shielding Formulations • Integrated EMI/RFI shielding • Lightweight • Easier to process vs metals BATTERY HOUSING/COVER OnForce™ Long Glass Fiber Reinforced Polypropylene Composites Complēt™ Long Fiber Reinforced Structural Thermoplastics • Metal replacement • Lightweighting • Flame retardancy • Structural performance • Design integration & freedom Polystrand™ Continuous Glass Fiber Reinforced Thermoplastics • Localized biaxial reinforcement • Impact performance • Overmolding compatibility • Flame retardancy • Integrated assembly point stiffening ENGINEERED MATERIALS FOR EV BATTERIES CELL MODULE Therma-Tech™ Thermally Conductive Formulations • Flame resistance • Easy molding • Good stiffness and mechanical strength • Thermal conductivity UNDERBODY PROTECTION Polystrand™ Continuous Glass Fiber Reinforced Thermoplastics • Superior impact performance • Significantly lighter than steel • Simplified integration with housing • Corrosion resistance • Flame retardancy

MOVING HIGH PERFORMANCE FIBERS FORWARD Key Features • High Strength & Modulus • Corrosion resistant • Electrical & thermal conductor • Flame Resistant • UV Inert • X-Ray Permeable • Excellent EMI (Electromagnetic Interference) Disadvantages • Susceptible to filamentation • Conductivity may be a hindrance to some processing • Susceptible to galvanic corrosion • Poor abrasion resistance (untreated) FIBER-LINE® PROCESS FOR CARBON FIBER • Coating • Twisting • Extrusion • Pultrusion • Precision Winding FIBER-LINE® CARBON FIBER PRODUCTS • Strength Members • Packing Yarn • Belt & Hose Reinforcement Yarn • Synthetic Wire Rope WHY CARBON FIBER? Carbon fiber production took off during the 1960’s but the high price of the material limited its initial usage. Typically, higher carbon purity yields greater conductive and modulus properties but in turn produces a less flexible and stiff tow.

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