Extruder information and processing guidelines for Syncure™ XLPE including temperature, flame at die tip, line speed, screw cooling and purge compound (English language version) Extruder information and processing guidelines for Syncure™ XLPE including temperature, flame at die tip, line speed, screw cooling and purge compound (Spanish language version)

Enhance performance and process efficiency of extruded thermoplastic parts with OnCap™ additives Versaflex™ PF formulations are specially developed for the manufacture of co-extruded surface protective films

Enhance performance and process efficiency of extruded thermoplastic parts with OnCap™ additives Versaflex™ PF formulations are specially developed for the manufacture of co-extruded surface protective films

Extruder information and processing guidelines for Syncure™ XLPE including temperature, flame at die tip, line speed, screw cooling and purge compound (Spanish language version) Versaflex™ PF formulations are specially developed for the manufacture of co-extruded surface protective films (Portuguese language version)

Extruder information and processing guidelines for Syncure™ XLPE including temperature, flame at die tip, line speed, screw cooling and purge compound (Spanish language version) Versaflex™ PF formulations are specially developed for the manufacture of co-extruded surface protective films (Portuguese language version)

Extruder information and processing guidelines for Syncure™ XLPE including temperature, flame at die tip, line speed, screw cooling and purge compound (Spanish language version) Versaflex™ PF formulations are specially developed for the manufacture of co-extruded surface protective films (Portuguese language version)

Engineered materials for molded and extruded components Medical Plastics Help Designers and Manufacturers Meet Changing Requirements Formulated with pre-tested raw materials, this range of additives helps enhance the performance and functionality of plastics used in medical devices and pharmaceutical packaging and mitigate the risk of non-compliance.

In each comparison, polyketone thermoplastics offer product engineers and designers a new tool in the product development toolbox for engineering plastics. A noticeable difference here is impact properties, which are improved for nylons since water plasticizes nylon and makes them more impact resistant. If the material is allowed to stay in an injection molding machine or extruder (profile, sheet, etc.) too long, the material will start to discolor and brown ‘freckles’ may appear. 

Formulated using select metallic fillers and engineered thermoplastic resins, these solutions offer densities similar to traditional metals while also providing design and processing flexibility because it can be extruded, molded, calendered or thermoformed into the final desired shape. Why consider plastics in lieu of metal? Plastic Piping System Flapper Valve - Case Study

Polyamide (i.e. nylon) is preferred plastic in many high end applications due to its crystalline structure and high melting temperature. TPE chemistry and the type of engineering plastic play a critical role in influencing wettability. We have modified ASTM D903 method for plastics to evaluate the adhesion of soft TPE onto rigid thermoplastic.