AVIENT SOLUTION Colorant Chromatics PES/PPSU Pre- colored Solutions LEARN MORE © 2024, Avient Corporation. All Rights Reserved https://www.avient.com/products/polymer-colorants/high-temperature-color-concentrates/colorant-chromatics-pes/psu/ppsu-colorants Slide 1: Airline components manufacturer

LUBRIONE自润滑配方⸺不含聚四氟乙烯的解决方案 材料名称 基础树脂 增强填充物 润滑填充物 PA6 PA6/PA66 PA66 PBT PC PKE POM PPS LubriOne LB6000-5024 RS HI 自然色 Lubrione LB6000-5021 RS S1 Lubrione LB6000-5021 RS X2 LubriOne LB6000-5019 X1 黑色 LubriOne LB6700-5001 RS AF 黑色 LubriOne NN-000/01M 黑色 SO LubriOne REC LB6600-5030 RS 灰色 LubriOne LB3300-5010 RS 自然色 LubriOne LB3300-5005 RS 自然色 LubriOne REC LB3220-5001 RS C 自然色 X1 LubriOne LB8900-5010 GP 灰色 LubriOne LB8900-5006 RS PE 自然色 LubriOne LB8900-5004 RS PE 自然色 LubriOne LB4200-5022 黑色 LubriOne LB4200-5023 自然色 LubriOne LB9200-5012 RS PE 自然色 GF10 GF30 GF30 GF50 GF50 无填充 GF33 GF20 MI20 GF10 无填充 GF20 GF30 无填充 无填充 GF30 UHMWPE UHMWPE UHMWPE UHMWPE UHMWPE MoS2 石墨 UHMWPE UHMWPE UHMWPE 石墨 UHMWPE UHMWPE MoS2 UHMWPE UHMWPE

CHAPTER 1 | APPLICATION SUMMARY Design Guide 5 GRAVI-TECH GT5200-0013 GRAVI-TECH GT6000-0004 GRAVI-TECH GT7300-0006 GRAVI-TECH GT5200-5003 GRAVI-TECH GT6000-5002 GRAVI-TECH GT7300-5007 Specific Gravity* 2 .0 3 .0 2 .0 2 .5 2 .6 2 .2 Color Options* Various Various Black to Grey Black Various Various Electroplating No Possibly Yes Possibly Possibly Yes Base Resin PP PA6 ABS PP PA6 ABS FDA Compliant* Yes Yes Yes Yes No Yes Region Produced North America North America North America Europe Europe Europe Full Name X GT5200-0013 PT White X GT6000-0004 PT White X GT7300-0006 PT Black GT7300-5003 Black FD GT6000-5002 EI White 1 GT7300-5007 X2 White FD *Please contact Avient for additional information 6 Gravi-Tech CHAPTER 2 | PROCESS SETTINGS Density Modified Formulations Gravi-Tech™ polymer-metal composites are high-density materials developed as thermoplastic- based alternatives to metals. Venting Guidelines by Resin • PC: .001"– .002" depth & .250" width • PC/PSU: .002"– .003" depth & .250" width • PES: .003"– .004" depth & .250" width • PEI: .001"– .003" depth & .250" width • PP: .001"– .002" depth & .250" width • ABS: .0015"– .0025" depth & .250" width • PEEK: .002"–.004" depth & .250" width FIGURE 40 - Venting Guidelines Vent Groove Vent Land Vent FIGURE 44 - Venting guidelines FIGURE 43 - Venting areas 20 Gravi-Tech CHAPTER 5 | PROCESS OPTIMIZATION Process optimization ensures a quality process and minimizes cycle time. It is better to fill out the part at slower speeds in-order to let any compressed air escape, and to get the best surface finish on the part.3 • Using all of the previous settings, record the Transfer Pressure, Fill Time, and Injection speed • Reduce the injection velocity by 10% and record the same values • Keep reducing the injection velocity until a fill time of 10-15 seconds is reached Transfer Pressure (psi) Fill Time (sec) Injection Velocity (in/sec) Relative Shear Rate Relative Viscosity 1238 0 .20 8 .00 5 .00 247 .60 1125 0 .22 7 .00 4 .55 247 .50 1058 0 .25 6 .00 4 .00 264 .50 960 0 .35 5 .00 2 .86 336 .12 870 0 .45 4 .00 2 .22 391 .65 780 0 .58 3 .00 1 .72 452 .59 690 0 .85 2 .00 1 .18 586 .78 600 1 .35 1 .00 0 .74 810 .45 510 2 .50 0 .75 0 .40 1275 .83 420 5 .23 0 .50 0 .19 2198 .34 330 9 .56 0 .25 0 .10 3157 .99 240 15 .26 0 .10 0 .07 3667 .49 FIGURE 47 - Injection Speed 22 Gravi-Tech • Calculate the Relative Viscosity for each of the Injection Speeds using the equation above (Transfer Pressure * Fill Time) • Calculate the Relative Shear Rate for each of the injection speeds using the equation (1/Fill Time) • Plot the points on a graph and find the optimum velocity • The optimum velocity will be where the curve starts to level out In figure 48 above, the optimum velocity is where the plotted line crosses the black trend line; therefore the optimum velocity would be about 1 .00 in/sec .

For this reason packaging often contains layers of both PP and PE based on its functionality. It works by bringing incompatible polymers – such as PP and PE – together by forming them into a homogenous polymer mixture that increases mechanical properties based on polymer modification. This literature shall NOT operate as permission, recommendation, or inducement to practice any patented invention without permission of the patent owner. 1.844.4AVIENT www.avient.com KEY CHARACTERISTICS • Designed for polyolefin recycling and to enhance circularity • Helps bring incompatible polymers together by forming them into a homogenous polymer mixture • Improves the mechanical performance of mixed PP/PE streams • Increases impact strength by up to 50% • Increases ductility by up to 100% for improved performance • Maintains mechanical strength properties close to polymer starting point • The end result is that the characteristics of rPP remain with higher impact properties • Good cost-performance ratio • Can be combined with color into a single masterbatch product for convenience • Product guidance and technical assistance is available from our experts MARKETS & APPLICATIONS • Recycled polyolefins • Packaging, consumer & others • High-value polyolefin applications with recycled material content • Virgin polymers which will be recycled after the use phase Currently unavailable in North America —please contact your Avient representative for further information.

PP, PE, PS, PVC No Good Foam PP Better, larger cells with lower cell density in standard IM processes; suitable for cell nucleation in structural foam processing PP, PE, PS, PVC Yes Better FA-110 Best cell structure with higher cell density; provides better structural integrity and lower density in standard IM processes PP, PE, PS, PVC Yes Best KEY CHARACTERISTICS Excelite IM formulations provide injection molders with: • Material density and weight reduction • High concentration of active CFA • Improved distribution of CFA into polymer matrix • High cell density with tight cell structure • Control over consistency and accuracy • Reduced sink marks • Ability to improve flow of material • Cycle time reduction • Improved dimensional stability • Improved thermal insulation EXCELITE IM – PRODUCT FORMULATIONS www.avient.com Copyright © 2020, Avient Corporation.

STRUCTURAL DECKING R E I N F O R C E D H D P E L U M B E R • Reinforcement to improve strength of HDPE decking • Composite tape compatible with HDPE for strong adhesion • Low thermal expansion • Domestic (U.S.) supply and manufacturing • Added strength to HDPE deck boards to enable industry-leading load capacity and joist spacing spans • Extended product life with superior adhesion of PE tape via co-extrusion • Improved supply reliability with product manufactured in Englewood, CO Polystrand™ unidirectional thermoplastic composite tape KEY REQUIREMENTS WHY AVIENT?

All Rights Reserved https://www.avient.com/products/polymer-colorants/high-temperature-color-concentrates/colorant-chromatics-pes/psu/ppsu-colorants Slide 1: Dental tool oem

AEROSPACE INTERIORS OEM S E A T S P A C E R & A R M R E S T • Weight reduction to increase airliner fuel economy • Meet FAA safety requirements for FST compliance and 16G kinetic survivability • Agility to delivery solution within 8-month compressed product development timeline • Achieved 40% weight reduction generating $16,000 per year reduction in fuel costs • Optimized component designs for long fiber material and conducted FEA validation • Performed prototype molding and testing for load and impact specifications to expedite development Complēt™ Long Carbon Fiber PES Composite KEY REQUIREMENTS WHY AVIENT?

Available in natural, white and black grades, the Edgetek HI PKE series is also colorable with support from Avient. TECHNICAL PROPERTIES(1) TEST METHOD Edgetek™ ET8900-0011 HI UV NAT Edgetek™ ET8900-0012 HI UV White Edgetek™ ET8900-0013 HI UV Black Physical Density/Specific Gravity ASTM D792 1.13 g/cm3 1.15 g/cm3 1.13 g/cm3 Molding Shrinkage - Flow ASTM D955 1.4–2% 1.4–2% 1.4–2% Mechanical Tensile Strength (Yield) ASTM D638 5,900 psi 5,800 psi 5,800 psi Tensile Modulus(2) ASTM D638 169,000 psi 161,087 psi 176,000 psi Flexural Modulus(3) ASTM D790 187,000 psi 190,985 psi 188,000 psi Impact Notched Izod Impact 73°F (23°C), 0.125 in ASTM D256A 17.3 ft-lb/in 16.5 ft-lb/in 16.5 ft-lb/in Notched Izod Impact -22°F (-30°C), 0.125 in ASTM D256A 3.2 ft-lb/in 3.0 ft-lb/in 3.3 ft-lb/in Thermal (HDT) 66 psi (0.45 MPa), 0.125 in ASTM D648 121°C 135°C 129°C NORTH AMERICA GRADES (1) Data based on single lot of lab generated samples.

680.00 Black 2% Black 3C 680.01 Brown 6% 4625C 680.02 Red 15% 7621C 680.03 Orange 6% 1595C 680.04 Yellow 6% 605C 680.05 Green 6% 7732C 680.06 Blue 10% 7697C 680.07 Violet 15% 7665C 680.08 Grey 5% 7539C 680.09 White 12% 7499C * Recommended let down ratio addition rates.