Thermoplastic polymers are characterized by their ability to be reshaped repeatedly into new forms after heat and pressure are applied. In the electronics industry, plastic enclosures and connectors not only enhance safety through electrical insulation, but thermally and electrically conductive plastics provide heat transferring, cooling, anti-static, electrostatic discharge, and electromagnetic shielding performance for critical applications including integrated circuit chip packaging.

reduces re-heat energy requirements, enables faster cycle times). Added during processing, Hydrocerol is heat activated and releases gas to form a cellular foam structure, keeping the outer skin solid without voids.

Thermoplastic polymers make up a substantial majority of the resin market and are characterized by their ability to be reshaped repeatedly into new forms after heat and pressure are applied. In the electronics industry, plastic enclosures and connectors not only enhance safety through electrical insulation, but thermally and electrically conductive plastics provide heat transferring, cooling, antistatic, electrostatic discharge, and electromagnetic shielding performance for critical applications including integrated circuit chip packaging.

Thermoplastic polymers make up a substantial majority of the resin market and are characterized by their ability to be reshaped repeatedly into new forms after heat and pressure are applied. In the electronics industry, plastic enclosures and connectors not only enhance safety through electrical insulation, but thermally and electrically conductive plastics provide heat transferring, cooling, antistatic, electrostatic discharge, and electromagnetic shielding performance for critical applications including integrated circuit chip packaging.

Thermoplastic polymers are characterized by their ability to be reshaped repeatedly into new forms after heat and pressure are applied. In the electronics industry, plastic enclosures and connectors not only enhance safety through electrical insulation, but thermally and electrically conductive plastics provide heat transferring, cooling, anti-static, electrostatic discharge, and electromagnetic shielding performance for critical applications including integrated circuit chip packaging.

Thermoplastic polymers are characterized by their ability to be reshaped repeatedly into new forms after heat and pressure are applied. In the electronics industry, plastic enclosures and connectors not only enhance safety through electrical insulation, but thermally and electrically conductive plastics provide heat transferring, cooling, anti-static, electrostatic discharge, and electromagnetic shielding performance for critical applications including integrated circuit chip packaging.

Thermoplastic polymers make up a substantial majority of the resin market and are characterized by their ability to be reshaped repeatedly into new forms after heat and pressure are applied. In the electronics industry, plastic enclosures and connectors not only enhance safety through electrical insulation, but thermally and electrically conductive plastics provide heat transferring, cooling, antistatic, electrostatic discharge, and electromagnetic shielding performance for critical applications including integrated circuit chip packaging.

reduces re-heat energy requirements, enables faster cycle times).

reduces re-heat energy requirements, enables faster cycle times).

Eight ways we help customers meet their sustainability goals Enables lighter weight parts than those made from “traditional” materials, and/ or reduces the amount of material needed to make a part or package without sacrificing mechanical and performance needs Reduces energy consumption (e.g. reduces re-heat energy requirements, enables faster cycle times) Allows for the replacement of components, processes, or systems that emit VOC’s Contains or enables post-consumer or post-industrial recycle content, or improves the ability of materials to be recycled with desired performance or aesthetic levels Based in whole or in part on biopolymer resources, or enable bio-based materials to perform at a level comparable to conventional polymers Offers alternatives to traditional materials such as lead or phthalates; processes that use solvents; or prolongs the lifespan of products, conserving natural resources* (e.g.