However, for synthetic fibers manufactured by an extrusion process, such as polyester, polyamide, and polypropylene, there is another technology that uses no water and less energy than classic bath-dyeing: spin-dyeing. The colorant is in the form of concentrate pellets added to the polymer pellets during the extrusion and melting process.

However, for synthetic fibers manufactured by an extrusion process, such as polyester, polyamide, and polypropylene, there is another technology that uses no water and less energy than classic bath-dyeing: spin-dyeing. The colorant is in the form of concentrate pellets added to the polymer pellets during the extrusion and melting process.

However, for synthetic fibers manufactured by an extrusion process, such as polyester, polyamide, and polypropylene, there is another technology that uses no water and less energy than classic bath-dyeing: spin-dyeing. The colorant is in the form of concentrate pellets added to the polymer pellets during the extrusion and melting process.

However, for synthetic fibers manufactured by an extrusion process, such as polyester, polyamide, and polypropylene, there is another technology that uses no water and less energy than classic bath-dyeing: spin-dyeing. The colorant is in the form of concentrate pellets added to the polymer pellets during the extrusion and melting process.

However, for synthetic fibers manufactured by an extrusion process, such as polyester, polyamide, and polypropylene, there is another technology that uses no water and less energy than classic bath-dyeing: spin-dyeing. The colorant is in the form of concentrate pellets added to the polymer pellets during the extrusion and melting process.

However, for synthetic fibers manufactured by an extrusion process, such as polyester, polyamide, and polypropylene, there is another technology that uses no water and less energy than classic bath-dyeing: spin-dyeing. The colorant is in the form of concentrate pellets added to the polymer pellets during the extrusion and melting process.

MONOFILAMENT MANUFACTURER P V D F F I L A M E N T E X T R U S I O N • Reduce or eradicate die build-up • Improve predictive and final part quality • Optimize PVDF extrusion for the desired coefficient of friction (CoF) • Reduce energy consumption • Boosted overall production efficiency by minimizing die build-up through use of a PVDF-specific processing aid • Achieved a flawless surface by reducing friction and improving flow for enhanced final part quality • Controlled extrusion pressure to reduce energy required in processing Colorant Chromatics PVDF Processing Aid KEY REQUIREMENTS WHY AVIENT?

EXTRUSION FILM MANUFACTURER S I G N B O A R D P R O T E C T I V E T A P E • Film application with a high concentration of TIO2 (>80%) • Good performance on light fastness and anti-yellowing OnColor Polymer Colorants KEY REQUIREMENTS WHY AVIENT? Provided excellent dispersion with highly concentrated TiO2 • Offered customized solutions to achieve customer request on TiO2 % @ 80% • Maintained good light fastness https://www.avient.com/products/polymer-colorants Slide 1: EXTRUSION FILM MANUFACTURER

FILM MANUFACTURER B L O W N F I L M • Maintain comparable performance to PFAS additives • Meet regulatory compliance • Eliminate melt fracture and reduce die buildup • Increase productivity by reducing product changeover time • Provided a non-PFAS formulation that met all performance and regulatory requirements and did not interact with other additives • Helped eliminate melt fracture with a quick time to clear of under forty minutes • Delivered technical support, including comprehensive testing on various chemistries and polymers • Attained high throughput with a minimal amount of additive Cesa™ Non-PFAS Process Aid for Extrusion KEY REQUIREMENTS WHY AVIENT? https://www.avient.com/products/polymer-additives/processing-enhancement-additives/cesa-non-pfas-process-aid-extrusion

However, for synthetic fibers manufactured by an extrusion process, such as polyester, polyamide, and polypropylene, there is another technology that uses no water and less energy than classic bath-dyeing: spin-dyeing. The colorant is in the form of concentrate pellets added to the polymer pellets during the extrusion and melting process.