Whether you are producing wire insulation or jacketing, film, tubing and profile shapes, or injection molded parts, speak to our team of experts to find the right solution for your needs. Formulations for material performance over 300°F (150°C).

Avient not only provided suitable material, but also extended invaluable assistance to ensure a successful transition. THE SOLUTION Moving away from machining, the Frog Legs team embraced injection molding, enabling them to create more intricate shapes. With an aluminum hub, the dissimilar materials never fully bond and can slip.

This table represents examples of common barstock materials and sizes. Glasforms materials are highly customizable to meet specific customer requirements. Glasforms materials are highly customizable to meet specific customer requirements.

Low Dissipation Factor (Df) Material – Our solutions use a base formulation that has a Df value of less than 0.002. Further, injection- moldable materials allow for unique antenna designs and complex shapes, while only simple shapes are possible when using traditional materials. Processing conditions can cause material properties to shift from the values stated in the information.

Automotive Materials to Support ADAS Automotive Materials to Support ADAS Thermally conducive materials

Home // Reduce Carbon Footprint by Replacing Traditional Materials Avient developed a technology suite that uses specialty engineered polyketone (PK) thermoplastics and helps our customers meet their goals to lower the carbon footprint of their products versus traditional materials, like PA66 and PA6. The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.

Home // Reduce Carbon Footprint by Replacing Traditional Materials Avient developed a technology suite that uses specialty engineered polyketone (PK) thermoplastics and helps our customers meet their goals to lower the carbon footprint of their products versus traditional materials, like PA66 and PA6. The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.

Home // Reduce Carbon Footprint by Replacing Traditional Materials Avient developed a technology suite that uses specialty engineered polyketone (PK) thermoplastics and helps our customers meet their goals to lower the carbon footprint of their products versus traditional materials, like PA66 and PA6. The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.

Home // Reduce Carbon Footprint by Replacing Traditional Materials Avient developed a technology suite that uses specialty engineered polyketone (PK) thermoplastics and helps our customers meet their goals to lower the carbon footprint of their products versus traditional materials, like PA66 and PA6. The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.

Home // Reduce Carbon Footprint by Replacing Traditional Materials Avient developed a technology suite that uses specialty engineered polyketone (PK) thermoplastics and helps our customers meet their goals to lower the carbon footprint of their products versus traditional materials, like PA66 and PA6. The new materials also offer sustainability benefits over the product lifecycle through carbon footprint reductions compared to competitive materials—PK base resin production emits up to 61 percent less carbon dioxide (CO2) than nylon and POM.