They can be used alone or in conjunction with other materials such as thermoplastics, wood, and metal, and manufactured with techniques such as overmolding, coextrusion, and thermal lamination to incorporate CFRTP tapes and laminates into hybrid, multi-material structures. Co-Molding Hybrid Structures  CFRTP can also be molded on or into thermoplastic structures via hybrid compression and injection overmolding to create locally reinforced, molded components in a one-step process.

They can be used alone or in conjunction with other materials such as thermoplastics, wood, and metal, and manufactured with techniques such as overmolding, coextrusion, and thermal lamination to incorporate CFRTP tapes and laminates into hybrid, multi-material structures. Co-Molding Hybrid Structures  CFRTP can also be molded on or into thermoplastic structures via hybrid compression and injection overmolding to create locally reinforced, molded components in a one-step process.

They can be used alone or in conjunction with other materials such as thermoplastics, wood, and metal, and manufactured with techniques such as overmolding, coextrusion, and thermal lamination to incorporate CFRTP tapes and laminates into hybrid, multi-material structures. Co-Molding Hybrid Structures  CFRTP can also be molded on or into thermoplastic structures via hybrid compression and injection overmolding to create locally reinforced, molded components in a one-step process.

They can be used alone or in conjunction with other materials such as thermoplastics, wood, and metal, and manufactured with techniques such as overmolding, coextrusion, and thermal lamination to incorporate CFRTP tapes and laminates into hybrid, multi-material structures. Co-Molding Hybrid Structures  CFRTP can also be molded on or into thermoplastic structures via hybrid compression and injection overmolding to create locally reinforced, molded components in a one-step process.

These components win by losing the paint and saying yes to molded-in color It can be a challenge to paint these designs without overspray, drips and other imperfections. Eliminate the paint and watch cost and complexity ramp down.

These components win by losing the paint and saying yes to molded-in color It can be a challenge to paint these designs without overspray, drips and other imperfections. Eliminate the paint and watch cost and complexity ramp down.

Compared with a traditional painting process, injection-molded Artisan materials have lower energy requirements and reduced VOC emissions, making these thermoplastics a more sustainable solution. Replacing painted metal parts with an Artisan ABS formulation also enhances scratch performance. Additional paint replacement grades for other key industries are in development.

Thermoplastic Elastomer (TPE) FAQs Until as recently as 1996, the six primary TPE types could be categorized into two generic classes, block copolymers (styrenics, copolyesters, polyurethanes and polyamides) or thermoplastic/elastomer blends & alloys (thermoplastic polyolefins and thermoplastic vulcanizates). Thermoplastic

Thermoplastic Elastomer (TPE) FAQs Until as recently as 1996, the six primary TPE types could be categorized into two generic classes, block copolymers (styrenics, copolyesters, polyurethanes and polyamides) or thermoplastic/elastomer blends & alloys (thermoplastic polyolefins and thermoplastic vulcanizates). Thermoplastic

They can be used alone or in conjunction with other materials such as thermoplastics, wood, and metal, and manufactured with techniques such as overmolding, coextrusion, and thermal lamination to incorporate CFRTP tapes and laminates into hybrid, multi-material structures. Co-Molding Hybrid Structures  CFRTP can also be molded on or into thermoplastic structures via hybrid compression and injection overmolding to create locally reinforced, molded components in a one-step process.