Back Home // Products // Polymer Additives // Processing Enhancement Additives // Cesa™ Slip Additives Listing of standard product offerings by polymer type

Back Home // Products // Polymer Colorants // Colorant Dispersions // Stan-Tone™ PEP Polyester Dispersions Popular uses include pultrusion and SCM formulations, cast polymer countertops, glass-reinforced composites and coated fabrics.

PERSONAL CARE DEVICES P A T I E N T M O B I L I T Y • Diminish the growth of harmful microbes on surfaces without compromising product performance • Achieve cohesive color across different polymeric materials with the addition of antimicrobial ingredients • Accelerate product development timeline • Preserved polymer performance by minimizing undesirable microbes • Designed a masterbatch solution that achieved color harmony between diverse polymeric materials even with the addition of antimicrobial ingredients • Accelerated speed to market by several weeks with Avient’s pre-tested material and supplier expertise while reducing costs of lab testing fees by up to $50,000 Cesa™ WithStand™ Antimicrobial Additives with OnColor™ Colorants KEY REQUIREMENTS WHY AVIENT? https://www.avient.com/products/polymer-additives/performance-enhancement-additives/withstand-antimicrobial-additives

Polymer Solutions for Outdoor Equipment GO AHEAD AND BREATHE IN THE EXTRAORDINARY. With your pioneering designs and our advanced polymer materials, we’ll give them the rush and functionality they need Help them customize with materials that fit a wide variety of needs—from colors and patterns to textures and soft touch materials—and keep you ahead of the pack

premier provider of specialized polymer materials, services and solutions.    Specialty Engineered Materials    Specialty Engineered Materials

Enhancing polymer materials with colorants can: • Differentiate products • Reinforce branding • Evoke emotions • Add value to a commodity item • Promote safety Creative and effective use of polymer colorants, which come in liquid and solid forms, can have an impact all along the value chain. COMPLEMENTARY SOLUTIONS SMART COLORANTS: MAKING THE MOST OF COLOR SOLID COLORANTS LIQUID COLORANTS Available based on many different carrier resins Clean, easy handling + feeding Designed + engineered for compatible polymer matrix More effective for low letdown ratios Highly accurate dispensing Can be processed at lower temperatures COLOR STRATEGY BEST PRACTICES EXPANDING COLORANT OPTIONS Avoid limiting yourself to either solid or liquid forms, and focus on the requirements of the end application instead • Widen your materials and applications possibilities • Achieve the desired effect for each part • Optimize productivity and system costs by matching the right colorant type to the project ADDING SPECIAL EFFECTS Further differentiate and add value to your products • Examples include: metallic, pearlescent, chrome look, edge glow, sparkle/glitter, neon/fluorescent look, woodgrain/stone/camouflage SELECTING + SIZING COLORANT EQUIPMENT Both liquid and solid colorants can be used in the same production facility • Use the right colorant to significantly impact production and offer improvements in terms of efficiency and quality $37.5B projected global colorants market size by 2025** 84.7% of consumers cite colors as the primary reason they buy a particular product* U S D © 2020 Avient, All Rights Reserved To learn more about polymer colorants and how you can improve your current color strategy, visit avientdistribution.com or call +1.844.4AVIENT https://www.avientdistribution.com/

WHAT COLORS AND MATERIALS ARE ‘IN’? STAYING AHEAD OF TRENDS2 1 3 4 5 WHAT ARE THE NEWEST POLYMER TECHNOLOGIES? We’ll then create polymer samples or in some cases, 3D printed parts, and make necessary adjustments to ensure your part achieves the results you expected.

ESC is defined as the premature embrittlement and crack propagation of a polymer part. Ideally, all polymer contacting edges should be round or radiused. Aim for 75% of wall thickness for a low-shrink material, and 50% of wall thickness for a high-shrink material, with a draft angle from ¼° to 1°.

Complēt™ long fiber reinforced structural thermoplastics and OnForce™ long glass fiber reinforced polypropylene composites utilize carbon, glass, or specialty fibers in a broad range of thermoplastic polymers to optimize material performance to your application requirements. Pyrolysis removes the matrix polymer of injection-molded specimens to reveal the different internal fiber structure of long glass fiber and short glass fiber parts. With appropriate material selection and part design optimization, long carbon fiber materials can reduce the weight of components up to 50% compared to aluminum.

Since polymers interact differently with laser energy, making them more or less suitable for laser welding, special polymer solutions can be used to enhance a polymer’s ability to interact with the laser energy and achieve a good weld. Processing conditions can cause material properties to shift from the values stated in the information. It is the responsibility of the medical device manufacturer and the person placing the medical device on the market to ensure compliance of the medical device with all applicable laws and regulations, including the suitability of all raw materials and components used for its manufacture.