KEY CHARACTERISTICS • DBDPE-free • Excellent flame performance • Resistance to heat, oil, creep, and abrasion • Temperature rating up to 90°C • High extrusion speeds • UL 44 compliant Copyright © 2023, Avient Corporation. 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 System Syncure XLPE S200FH Syncure XLPE S200FV Applications Building Wire, Tray Cable, Service Entrance Building Wire, Tray Cable, Service Entrance Specification UL 44 UL 44 Wire Type RHW-2, RHW, RHH, XHHW-2, XHH, XHHW, SIS RHW, RHH, RHW-2 Components 78% S1054A 22% SC5400-0002 RoHS MB ALT FR 50% S1054A 50% SC5400-0003 RoHS MB ALT FR Features Horizontal Flame, DBDPE-free VW-1, DBDPE-free General Properties Specific Gravity (g/cm3) 1.01 1.31 Hardness Shore D, 10sec 47 48 Gel % 68 70 Tensile Properties Tensile Strength (psi) 2800 3200 Elongation % 400 470 Tensile Retention % 95 100 Elongation Retention % 90 93 Electrical Dielectric Strength (V/mil) 1000 1200 Dielectric Constant 2.31 2.61 Dissipation Factor % 0.0012 0.0043 Thermal Temperature Rating °C 90 90 Heat Deformation % 10 5 TECHNICAL PROPERTIES

Consumption of fuel (excluding feedstock) (7.30.1.1) Heating value Select from: ☑ HHV (higher heating value) (7.30.1.2) MWh from renewable sources 0 (7.30.1.3) MWh from non-renewable sources 181564.61 290 (7.30.1.4) Total (renewable and non-renewable) MWh 181564.61 Consumption of purchased or acquired electricity (7.30.1.1) Heating value Select from: ☑ Unable to confirm heating value (7.30.1.2) MWh from renewable sources 250828.67 (7.30.1.3) MWh from non-renewable sources 158822.01 (7.30.1.4) Total (renewable and non-renewable) MWh 409650.68 Consumption of self-generated non-fuel renewable energy (7.30.1.1) Heating value Select from: ☑ Unable to confirm heating value (7.30.1.2) MWh from renewable sources 3066.11 (7.30.1.4) Total (renewable and non-renewable) MWh 291 3066.11 Total energy consumption (7.30.1.1) Heating value Select from: ☑ Unable to confirm heating value (7.30.1.2) MWh from renewable sources 253894.78 (7.30.1.3) MWh from non-renewable sources 340386.61 (7.30.1.4) Total (renewable and non-renewable) MWh 594281.4 [Fixed row] (7.30.6) Select the applications of your organization’s consumption of fuel. Oil (7.30.7.1) Heating value Select from: ☑ HHV (7.30.7.2) Total fuel MWh consumed by the organization 2868.32 (7.30.7.8) Comment We consume diesel. 327 Select from: ☑ No (7.30.16.4) Consumption of purchased heat, steam, and cooling (MWh) 0 (7.30.16.5) Consumption of self-generated heat, steam, and cooling (MWh) 0 (7.30.16.6) Total electricity/heat/steam/cooling energy consumption (MWh) 737.67 (7.30.16.7) Provide details of the electricity consumption excluded NA [Fixed row] (7.30.17) Provide details of your organization’s renewable electricity purchases in the reporting year by country/area.

Flame and heat resistant, an excellent textile yarn for fabrics Composite Heat Release Technology Cesa™ Raise Heat Stability Modifier for APET Packaging

Reduce the transfer of heat into the interiors of architectural structures by absorbing solar infrared energy. Composite Heat Release Technology Cesa™ Raise Heat Stability Modifier for APET Packaging

Processing aids can be used to achieve an improved surface finish, expanded heat processing window, elimination of die drool, and higher line speeds. SITECOOL™ SiteCool is an additive solution for fluoropolymer roofing systems that reduces the transfer of heat into the interiors of architectural structures by absorbing infrared energy contained within the solar spectrum. They can also be used as an antistatic coating on FEP or PTFE-impregnated glass cloth or as a resistance carrier for heating bands.

They are also compatible with SMT (Surface Mounting Technology) methods of circuit board production because they can be formulated with high heat resistance. ET9600-8010 LDS ET3200-8177 LDS Dielectric Constant (DK) 3.98 2.88 Dissipation Factor (Df) 0.0060 0.0040 SPECIALTY ENGINEERED MATERIALS ELECTRICAL & ELECTRONICS SOLUTIONS EDGETEK™ FORMULATIONS FOR 5G BASE STATION ANTENNA APPLICATIONS EDGETEK™ PRODUCT PORTFOLIO HOW AVIENT EDGETEK FORMULATIONS MAKE THE DIFFERENCE FOR 5G BASE STATION ANTENNA APPLICATIONS Increased Design Flexibility – Can increase design flexibility especially for circuit design, 3D antenna design, and complex shapes Faster Design Qualification & Shorter Lead Time – Can be customized to specific Dk values and delivered within weeks Flexible Design Space – Effective for circuit designs constrained by a limited space Compatible with SMT Process – Can be customized to resist heat, with deflection temperatures ranging from 200°C to 278°C To learn more, please visit www.avient.com or call +86.21.60284888. www.avient.com Copyright © 2020, Avient Corporation.

They provide similar performance characteristics to conventional grades formulated with PTFE, helping to reduce friction, noise, vibration, and heat build-up as well as improve product durability in applications that involve mating surfaces or extreme wear. KEY CHARACTERISTICS • Excellent wear resistance • Reduced friction, heat build-up, noise & vibration • Improved processability & surface finish on parts • Lower power requirements & low maintenance • Reduced tool contamination and corrosion • Reduction in lubricant migration time • Design flexibility • Reduced weight • Chemically resistant MARKETS & APPLICATIONS Ideal for applications in many industries including transportation, industrial, household, electrical and electronics including: • Transportation – Fuel flap axis, interior door handle axis, gears, seat mechanics, sun-roof sliding mechanisms, side mirror parts • Industrial – Conveyor belt gears, pulleys • Household – Window/door runners, furniture parts, hinges • Electrical and electronics – Electrical plug safety parts, printers, barcode scanners PRODUCT BULLETIN EUROPE GRADES ASIA GRADES Material Name Base Resin Reinforcing Filler Lubricating Filler LubriOne LB6000-5024 RS HI natural PA6 GF10 UHMWPE Lubrione LB6000-5021 RS S1 GF30 UHMWPE Lubrione LB6000-5021 RS X2 GF30 UHMWPE LubriOne LB6000-5019 X1 black GF50 UHMWPE LubriOne LB6700-5001 RS AF black PA6/PA66 GF50 UHMWPE LubriOne NN-000/01M black SO PA66 Unfilled MoS2 LubriOne REC LB6600-5030 RS grey GF33 Graphite LubriOne LB3300-5010 RS natural PBT GF20 UHMWPE LubriOne LB3300-5005 RS natural MI20 UHMWPE LubriOne REC LB3220-5001 RS C natural X1 PC GF10 UHMWPE LubriOne LB8900-5010 GP grey PKE Unfilled Graphite LubriOne LB8900-5006 RS PE natural GF20 UHMWPE LubriOne LB8900-5004 RS PE natural GF30 UHMWPE LubriOne LB4200-5022 black POM Unfilled MoS2 LubriOne LB4200-5023 natural Unfilled UHMWPE LubriOne LB9200-5012 RS PE natural PPS GF30 UHMWPE Material Name Base Resin Reinforcing Filler Lubricating Filler LubriOne LB6600-8056 LB BK001 PA66 Unfilled LDPE LubriOne LB6600-8054 RS BK001 CF30 LDPE LubriOne LB6600-8052 RS BK001 GF30 LDPE LubriOne LB4200-8032 RS NC001 POM GF30 LDPE LubriOne LB4200-8030 AR NC001 AF10 LDPE LubriOne LB4200-8026 LB BK001 Unfilled LDPE+HDPE LubriOne LB3200-8022 LB BK001 PC Unfilled UHMWHDPE LubriOne LB3200-8021 RS BK001 GF30 UHMWHDPE LubriOne LB7600-8008 RS BK001 PPO GF20 UHMWHDPE Copyright © 2024, Avient Corporation.

Composite Heat Release Technology Cesa™ Raise Heat Stability Modifier for APET Packaging Reduces the transfer of heat into the interiors of architectural structures by absorbing solar infrared energy into the fluoropolymer sheet

Cesa™ Raise Heat Stability Modifier for APET Packaging Composite Heat Release Technology Cesa™ Raise Heat Stability Modifier for APET Packaging

No matter how many times you expose TPEs to sufficient heat they will become soft and re-harden when cool. There are medical grade TPEs that can be autoclaved up to 135°C for 15 minutes, but the inherent thermoplasticity of most TPEs make them susceptible to softening under extreme heat. These stabilizers usually act by absorbing the UV radiation preferentially, and dissipating the energy as low-level heat.