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Don’t take our word for it… some very successful designers believe that products conceived with materials in mind offer better performance, have greater capacity to improve lives, and are able to advance sustainability more readily.

Opportunities for growth and advancement

Advanced Composites Explained

The collaborative team identified a move away from the traditional mandrel rolling production process used in Asia, and toward an advanced semi-automated continuous filament winding process in the United States. Using this process together with an advanced composite polymer formulation from Avient would offer a better stiffness-to-weight ratio than that of aluminum and mandrel-made fiberglass. The benefits were twofold: first, Carbonerro was able to increase design freedom and innovation; and second, the use of an advanced composite material offered a higher quality, higher performing paddle for a similar price point to that of the lower performing competition.

Orangeville Plasticizer (Update 1) Report Preview National Pollutant Release Inventory (NPRI) and Partners Home Submission Management Help My Profile:Brian Greer Logout Ec.gc.ca Report Preview Report Details Company and Facility Details Contacts Details Report Year 2016 Report Type: NPRI,ON MOE TRA Report Status: Update 1 ­ Submitted Modified Date/Time: 30/04/2018 3:36 PM Report Update Comments: As per requests from Catherine Siew Company Name: Polyone Canada Inc. Submitted Report Period Submission Date Facility Name Province City Programs 2016 30/04/2018 Orangeville Plasticizer Ontario Orangeville NPRI,ON MOE TRA Note: If there is a change in the contact information for the facility, a change in the owner or operator of the facility, if operations at the facility are terminated, or if information submitted for any previous year was mistaken or inaccurate, please update this information through SWIM or by contacting the National Pollutant Release Inventory directly. http://www.ec.gc.ca/default.asp?

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KEY CHARACTERISTICS • Highly flame retardant: Flame retardancy helps prevent fire and to limit damage if one starts • Non-halogenated: During a fire, there are no ingredients to cause acidic gas emissions from the polymer, which can damage equipment and buildings • Low smoke: In the event of fire, people are more able to find the escape exit and fire fighters can quickly find the source of the fire • Low toxicity: People are not likely to be overcome by toxic fumes • Low dripping: No flaming droplets are likely to propagate a fire or injure evacuees • Manufacturing efficiency: Easy processing with a smooth surface finish MARKETS AND APPLICATIONS The ECCOH range of specialty polymers help manufacturers meet CPR requirements for power, control and communication cables (including optical fiber cables) used in buildings. KEY REQUIREMENTS FINAL CABLE Ø = 7.4–7.8mm WIRE Ø 1.37mm Copper 1.5mm2 INSULATION Ø 2.8mm WT: 0.8mm XLPE or LSFOH SHEATHING WT required to achieve the cable diameter LSFOH EUROCLASS B2ca s1 d1 a1 EXAMPLE: IMPACT OF CABLE DESIGN ON CPR EUROCLASS SOLUTIONS AVAILABLE SHEATHING INSULATION SHEATHING LOI (%) EUROCLASS ECCOH™ 5549 LM XLPE 45 Dca s2 d2 a1 ECCOH™ 5549 LM ECCOH™ XLS 8001 45 B2ca s1 d1 a1 ECCOH™ 5924 ECCOH™ XLS 8001 37 B2ca s1 d1 a1 CABLE DESIGN Sheathing Insulation Wire ECCOH™ SHEATHING GRADES APPLICATIONS ECCOH GRADES MFR (150C/ 21.6kg) TS (MPa) EB (%) LOI (%O2) CPR* (Class Perfor- COMMENTS LAN/coaxial sheathing1 5549 LM 3.0 11.0 160 45 B2ca Excellent flame retardancy, best in class in char formation with very low dripping and low heat release. Advanced flame retardancy and easy processing performance.

KEY CHARACTERISTICS • Highly flame retardant: Flame retardancy helps prevent fire and to limit damage if one starts • Non-halogenated: During a fire, there are no ingredients to cause acidic gas emissions from the polymer, which can damage equipment and buildings • Low smoke: In the event of fire, people are more able to find the escape exit and fire fighters can quickly find the source of the fire • Low toxicity: People are not likely to be overcome by toxic fumes • Low dripping: No flaming droplets are likely to propagate a fire or injure evacuees • Manufacturing efficiency: Easy processing with a smooth surface finish MARKETS AND APPLICATIONS The ECCOH range of specialty polymers help manufacturers meet CPR requirements for power, control and communication cables (including optical fiber cables) used in buildings. KEY REQUIREMENTS FINAL CABLE Ø = 7.4–7.8mm WIRE Ø 1.37mm Copper 1.5mm2 INSULATION Ø 2.8mm WT: 0.8mm XLPE or LSFOH SHEATHING WT required to achieve the cable diameter LSFOH EUROCLASS B2ca s1 d1 a1 EXAMPLE: IMPACT OF CABLE DESIGN ON CPR EUROCLASS SOLUTIONS AVAILABLE SHEATHING INSULATION SHEATHING LOI (%) EUROCLASS ECCOH™ 5549 LM XLPE 45 Dca s2 d2 a1 ECCOH™ 5549 LM ECCOH™ XLS 8001 45 B2ca s1 d1 a1 ECCOH™ 5924 ECCOH™ XLS 8001 37 B2ca s1 d1 a1 CABLE DESIGN Sheathing Insulation Wire ECCOH™ SHEATHING GRADES APPLICATIONS ECCOH GRADES MFR (150C/ 21.6kg) TS (MPa) EB (%) LOI (%O2) CPR* (Class Perfor- COMMENTS LAN/coaxial sheathing1 5549 LM 3.0 11.0 160 45 B2ca Excellent flame retardancy, best in class in char formation with very low dripping and low heat release. Advanced flame retardancy and easy processing performance.

No.150 Şişli/İstanbul 1 WEBSITE CONTENT POLYONE TEKNO POLİMER MÜHENDİSLİK PLASTİKLERİ SANAYİ VE TİCARET ANONİM ŞİRKETİ Content to be published permanently * Please note that in case of any changes to the following content, the update shall be published on the websites on the date such changes occur.