While commodity plastics can typically maintain performance only up to 100°C, and engineering plastics do the same up to 120°C, a high-performance thermoplastic can withstand continuous use temperatures of 230°C while also maintaining low temperature impact. To mold high-performance thermoplastics, processing equipment must be capable of melt temperatures up to 400°C and mold temperatures up to 200°C. The material typically works best with a nozzle temperature between 360–400°C and a heated bed of 120°C.

Certificate of Registration 9001:2015 MSP 9001:2015–MSP-ANAB-US (2.0) Page 1 of 2 Certificate of Registration of Quality Management System to ISO 9001:2015 The National Standards Authority of Ireland certifies that: Colorant Chromatics Ab Kroklundsvagen 346 AX-22 320 Odkarby Aland Finland has been assessed and deemed to comply with the requirements of the above standard in respect of the scope of operations given below: The Design, Manufacture and Sales of Fluoropolymer Color Concentrates and Compounds Additional sites covered under this multi-site certification are listed on the Annex (File No. 19.2540/C) Approved by: Geraldine LarkinChief Executive Officer Approved by: Lisa Greenleaf Operations Manager Registration Number: 19.2540/C Certification Granted: May 15, 1997 Effective Date: Oct 20, 2018 Expiry Date: Oct 19, 2021 National Standards Authority of Ireland, 20 Trafalgar Square, Nashua, New Hampshire, NH 03063, USA T +1 603 882 4412 9001:2015–MSP-ANAB-US (2.0) Page 2 of 2 Annex to Certificate Number: 19.2540/C Scope of Registration: The Design, Manufacture and Sales of Fluoropolymer Color Concentrates and Compounds Activity Location Central Management Group, Design, Manufacture Colorant Chromatics Kroklundsvagen 346 AX-22 320 Odkarby Aland Finland File No.: 19.2540/C Headquarters, Sales, Distribution Colorant Chromatics Europe B.V.

Both thermal and electrical conductivity are affected by the grade of graphite and by molding conditions for the polymer.1 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.

Both thermal and electrical conductivity are affected by the grade of graphite and by molding conditions for the polymer.1 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.

Both thermal and electrical conductivity are affected by the grade of graphite and by molding conditions for the polymer.1 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.

Both thermal and electrical conductivity are affected by the grade of graphite and by molding conditions for the polymer.1 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.

Both thermal and electrical conductivity are affected by the grade of graphite and by molding conditions for the polymer.1 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.

Both thermal and electrical conductivity are affected by the grade of graphite and by molding conditions for the polymer.1 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.

Both thermal and electrical conductivity are affected by the grade of graphite and by molding conditions for the polymer.1 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.

EUROPEAN CABLE MANUFACTURER G E L - F I L L E D C E N T R A L L O O S E T U B E C A B L E S • Fire performance: CPR classification Cca-s1, d0, a1 • Resistance to chemicals and filling compounds • Rigidity close to PBT • Melting point higher than 100°C • Developed a custom formulation to reach required rigidity • Eliminated hydrolysis experienced with previous PBT material • Provided expertise in process improvement to help the customer achieve a more competitive processing speed ECCOH™ PF 4142 Formulation KEY REQUIREMENTS WHY AVIENT?