MAJOR OUTDOOR RETAILER I N T E R N A L W I L D G A M E B A C K P A C K F R A M E • Simpler manufacturing process to enable higher volume production • Retain shape while carrying wild game load • Toughness to survive backcountry use • Easy cleaning after use • Lowered production cost by substituting injection molded composite for thermoset layup • Redesigned frame to meet higher structural load requirements • Integrated design features to ease cleaning and improve functionality Complēt™ Long Carbon Fiber PA66 Composite KEY REQUIREMENTS WHY AVIENT?

CAR COMPONENT MANUFACTURER 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?

FITNESS SMARTWATCH BRAND S M A R T W A T C H H O U S I N G • Reduce carbon footprint at least 30% by using bio-based material • Meet physical properties requirements such as impact strength, UV resistance, and thermal resistance • Provide small lot quantity for various colors • Offered bio-based colorants to support carbon footprint reduction • Maintained over 80% of mechanical properties of materials and passed QSUN & QUV test • Offered supply flexibilities in low volume for a high mix of colors OnColor Bio Colorants KEY REQUIREMENTS WHY AVIENT?

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. The loading of filler needed to reach this threshold varies by the type and grade of conductive filler and the amount present per volume of polymer. Experts recommend using inserts for large-volume production, and because a long dwell time in the barrel may cause degradation, use a minimum of 20 percent to 50 percent of barrel capacity per shot.1 Purging is also important.

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. The loading of filler needed to reach this threshold varies by the type and grade of conductive filler and the amount present per volume of polymer. Experts recommend using inserts for large-volume production, and because a long dwell time in the barrel may cause degradation, use a minimum of 20 percent to 50 percent of barrel capacity per shot.1 Purging is also important.

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. The loading of filler needed to reach this threshold varies by the type and grade of conductive filler and the amount present per volume of polymer. Experts recommend using inserts for large-volume production, and because a long dwell time in the barrel may cause degradation, use a minimum of 20 percent to 50 percent of barrel capacity per shot.1 Purging is also important.

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. The loading of filler needed to reach this threshold varies by the type and grade of conductive filler and the amount present per volume of polymer. Experts recommend using inserts for large-volume production, and because a long dwell time in the barrel may cause degradation, use a minimum of 20 percent to 50 percent of barrel capacity per shot.1 Purging is also important.

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. The loading of filler needed to reach this threshold varies by the type and grade of conductive filler and the amount present per volume of polymer. Experts recommend using inserts for large-volume production, and because a long dwell time in the barrel may cause degradation, use a minimum of 20 percent to 50 percent of barrel capacity per shot.1 Purging is also important.

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. The loading of filler needed to reach this threshold varies by the type and grade of conductive filler and the amount present per volume of polymer. Experts recommend using inserts for large-volume production, and because a long dwell time in the barrel may cause degradation, use a minimum of 20 percent to 50 percent of barrel capacity per shot.1 Purging is also important.

Added in at volumes ranging from less than 1 percent to more than 70 percent by weight, minerals are typically mined from the earth and then refined to produce uniform particle size distribution. The loading of filler needed to reach this threshold varies by the type and grade of conductive filler and the amount present per volume of polymer. Experts recommend using inserts for large-volume production, and because a long dwell time in the barrel may cause degradation, use a minimum of 20 percent to 50 percent of barrel capacity per shot.1 Purging is also important.