Tested against common bacteria and fungi, these TPEs with antimicrobial technologies have proven to protect the finished part from microbial and fungi growth on both textured and smooth surfaces. Some of the information arises from laboratory work with small-scale equipment which may not provide a reliable indication of performance or properties obtained or obtainable on larger-scale equipment. Processing conditions can cause material properties to shift from the values stated in the information.

Our material and process experts provide guidance and technical support to transition from paint to MIC and to fulfill both the targeted aesthetics and application requirements. Some of the information arises from laboratory work with small-scale equipment which may not provide a reliable indication of performance or properties obtained or obtainable on larger-scale equipment. Processing conditions can cause material properties to shift from the values stated in the information.

Versaflex™ CF Low Adhesive Build-up TPE for Protective Film Tack Layer Protective films guard the surface of finished goods from initial fabrication through assembly, shipment, storage, and installation. Some of the information arises from laboratory work with small-scale equipment which may not provide a reliable indication of performance or properties obtained or obtainable on larger-scale equipment. Processing conditions can cause material properties to shift from the values stated in the information.

Developed to support growing sustainability goals, these bio- polymers offer hardness levels from 30-70 Shore A and property retention comparable to traditional petroleum-based TPEs. Some of the information arises from laboratory work with small-scale equipment which may not provide a reliable indication of performance or properties obtained or obtainable on larger-scale equipment. Processing conditions can cause material properties to shift from the values stated in the information.

Some of the information arises from laboratory work with small-scale equipment which may not provide a reliable indication of performance or properties obtained or obtainable on larger-scale equipment. Processing conditions can cause material properties to shift from the values stated in the information. You have the responsibility to conduct full-scale end-product performance testing to determine suitability in your application, and you assume all risk and liability arising from your use of the information and/or use or handling of any product.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Some milled glass is made from manufacturing byproducts, which makes it eco-friendlier. Glass beads are sometimes produced from recycled glass using a chemical process that creates precise spheres, which can be dispersed evenly and packed closely to allow high filler loading.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Some milled glass is made from manufacturing byproducts, which makes it eco-friendlier. Glass beads are sometimes produced from recycled glass using a chemical process that creates precise spheres, which can be dispersed evenly and packed closely to allow high filler loading.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Some milled glass is made from manufacturing byproducts, which makes it eco-friendlier. Glass beads are sometimes produced from recycled glass using a chemical process that creates precise spheres, which can be dispersed evenly and packed closely to allow high filler loading.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Some milled glass is made from manufacturing byproducts, which makes it eco-friendlier. Glass beads are sometimes produced from recycled glass using a chemical process that creates precise spheres, which can be dispersed evenly and packed closely to allow high filler loading.

Frankland, “How Fillers Impact Extrusion Processing,” Plastics Technology (Nov. 2011), www.ptonline.com/columns/how-fillers-impact-extrusion-processing Some milled glass is made from manufacturing byproducts, which makes it eco-friendlier. Glass beads are sometimes produced from recycled glass using a chemical process that creates precise spheres, which can be dispersed evenly and packed closely to allow high filler loading.