Both types are needed for thermal management, as polymers become an increasingly common replacement for metal and can improve a product’s design, reduce its weight, and lower its cost. The thermal conductivity of conductive plastics is not as high as that of metal, but conductive plastics can be just as effective as metals in thermal management, transferring heat by conduction (which depends on the material) and convection (which depends on the design of the system and the flow of air or liquid around the polymer part). Thermally conductive plastics are replacing aluminum in such products as the heat sinks used to reduce hot spots in LED lighting because they are more lightweight and provide comparable thermal management.

Both types are needed for thermal management, as polymers become an increasingly common replacement for metal and can improve a product’s design, reduce its weight, and lower its cost. The thermal conductivity of conductive plastics is not as high as that of metal, but conductive plastics can be just as effective as metals in thermal management, transferring heat by conduction (which depends on the material) and convection (which depends on the design of the system and the flow of air or liquid around the polymer part). Thermally conductive plastics are replacing aluminum in such products as the heat sinks used to reduce hot spots in LED lighting because they are more lightweight and provide comparable thermal management.

Both types are needed for thermal management, as polymers become an increasingly common replacement for metal and can improve a product’s design, reduce its weight, and lower its cost. The thermal conductivity of conductive plastics is not as high as that of metal, but conductive plastics can be just as effective as metals in thermal management, transferring heat by conduction (which depends on the material) and convection (which depends on the design of the system and the flow of air or liquid around the polymer part). Thermally conductive plastics are replacing aluminum in such products as the heat sinks used to reduce hot spots in LED lighting because they are more lightweight and provide comparable thermal management.

Both types are needed for thermal management, as polymers become an increasingly common replacement for metal and can improve a product’s design, reduce its weight, and lower its cost. The thermal conductivity of conductive plastics is not as high as that of metal, but conductive plastics can be just as effective as metals in thermal management, transferring heat by conduction (which depends on the material) and convection (which depends on the design of the system and the flow of air or liquid around the polymer part). Thermally conductive plastics are replacing aluminum in such products as the heat sinks used to reduce hot spots in LED lighting because they are more lightweight and provide comparable thermal management.

Both types are needed for thermal management, as polymers become an increasingly common replacement for metal and can improve a product’s design, reduce its weight, and lower its cost. The thermal conductivity of conductive plastics is not as high as that of metal, but conductive plastics can be just as effective as metals in thermal management, transferring heat by conduction (which depends on the material) and convection (which depends on the design of the system and the flow of air or liquid around the polymer part). Thermally conductive plastics are replacing aluminum in such products as the heat sinks used to reduce hot spots in LED lighting because they are more lightweight and provide comparable thermal management.

Both types are needed for thermal management, as polymers become an increasingly common replacement for metal and can improve a product’s design, reduce its weight, and lower its cost. The thermal conductivity of conductive plastics is not as high as that of metal, but conductive plastics can be just as effective as metals in thermal management, transferring heat by conduction (which depends on the material) and convection (which depends on the design of the system and the flow of air or liquid around the polymer part). Thermally conductive plastics are replacing aluminum in such products as the heat sinks used to reduce hot spots in LED lighting because they are more lightweight and provide comparable thermal management.

Both types are needed for thermal management, as polymers become an increasingly common replacement for metal and can improve a product’s design, reduce its weight, and lower its cost. The thermal conductivity of conductive plastics is not as high as that of metal, but conductive plastics can be just as effective as metals in thermal management, transferring heat by conduction (which depends on the material) and convection (which depends on the design of the system and the flow of air or liquid around the polymer part). Thermally conductive plastics are replacing aluminum in such products as the heat sinks used to reduce hot spots in LED lighting because they are more lightweight and provide comparable thermal management.

THE IMPACT Avient was able to reduce lead time on these newly developed additives by a week versus the original supplier, enabling this customer to better manage and control inventory levels.

This meant the molder was running longer cycle times to manage shot-to-shot irregularities and control dimensional stability.

Sweden Filial Address: Drottninggatan 56 411 07 GÖTEBORG County and municipality: Västra Götaland, Göteborg Note: MANAGING DIRECTOR 630516 Palm, Christoph, Gruss Strooss 35, L-9991 WEISWAMPACH, LUXEMBURG AUDITORS 556053-5873 Ernst & Young Aktiebolag, Box 7850, 103 99 STOCKHOLM Represented by: 850807-5135 PRINCIPALLY RESPONSIBLE AUDITOR 850807-5135 Edman, Mikael Thomas Gunnar, c/o Ernst & Young AB, 401 82 GÖTEBORG SIGNATORY POWER Signatory power alone by Palm, Christoph FINANCIAL YEAR Registered financial year: 0101 - 1231 DATE OF REGISTRATION OF CURRENT AND PREVIOUS BUSINESS NAMES 2021-11-29 Avient S.à r.l., Sweden Filial 2018-08-28 PolyOne S.à.r.l., Sweden Filial INFORMATION ABOUT THE FOREIGN COMPANY B226205 Avient S.á.r.l. 19, Route de Bastogne L-9638 Pommerloch LUXEMBURG Registered office of the foreign company: Pommerloch Name of the register in which the foreign company is registered: e-Certificate of registration Swedish Companies Registration Office BRANCH D1a- 6858922 Registration number Date of registration of the company Document created on Date of registration of current name Page 516411-5031 2018-08-28 2021-11-30 17:11 2021-11-29 3 (3) RCS, Registre de Commerce, Luxembourg Business Register LUXEMBURG Foreign company's financial year: 0101 - 1231 The above information is an extract from the Trade and Industry Register Bolagsverket, the Swedish Companies Registration Office.