Take a closer look at these resin families and their role in composite performance Avient’s reinforced composite technologies use carbon, glass and aramid fibers with custom formulated thermoset or thermoplastic resins in continuous forming processes Unidirectional fibers and engineered thermoplastic resins combine to create CFRTP tapes and laminates

Resin technologies utilized in these formulations include a breadth of options including a variety of polyamides, rigid thermoplastic polyurethanes and specialty resin solutions (such as PES, PEI, PEEK).    Complēt long fiber solutions have a significant jump in mechanical properties when compared to an unreinforced resin or a short fiber reinforced resin – most notably in toughness.  Recycled resin content customizable to meet performance and sustainability requirements

In some cases, residual gases may slowly evolve from resins or from finished products, so storage spaces may need to be ventilated. 3 The Fluoropolymers Division of the Society of the Plastics Industry, Guide to the Safe Handling of Fluoropolymer Resins–Fourth Edition (2005).

In some cases, residual gases may slowly evolve from resins or from finished products, so storage spaces may need to be ventilated. 3 The Fluoropolymers Division of the Society of the Plastics Industry, Guide to the Safe Handling of Fluoropolymer Resins–Fourth Edition (2005).

In some cases, residual gases may slowly evolve from resins or from finished products, so storage spaces may need to be ventilated. 3 The Fluoropolymers Division of the Society of the Plastics Industry, Guide to the Safe Handling of Fluoropolymer Resins–Fourth Edition (2005).

In some cases, residual gases may slowly evolve from resins or from finished products, so storage spaces may need to be ventilated. 3 The Fluoropolymers Division of the Society of the Plastics Industry, Guide to the Safe Handling of Fluoropolymer Resins–Fourth Edition (2005).

The use of 2K (two-component) molding – in which the base resin is injected and allowed to set up for a short time, and then is overmolded by injecting the TPE – streamlines the manufacturing process. It required a high temperature and a strong injection pressure to bond to the acrylonitrile-butadienestyrene (ABS) substrate, which caused the resin to deform.

The use of 2K (two-component) molding – in which the base resin is injected and allowed to set up for a short time, and then is overmolded by injecting the TPE – streamlines the manufacturing process. It required a high temperature and a strong injection pressure to bond to the acrylonitrile-butadienestyrene (ABS) substrate, which caused the resin to deform.

The use of 2K (two-component) molding – in which the base resin is injected and allowed to set up for a short time, and then is overmolded by injecting the TPE – streamlines the manufacturing process. It required a high temperature and a strong injection pressure to bond to the acrylonitrile-butadienestyrene (ABS) substrate, which caused the resin to deform.

Reinforcing a thermoplastic with long glass fiber is a cost-effective way to boost mechanical properties of unreinforced resin systems and, even, short fiber solutions. Our long glass fiber reinforced products range from 20-70% fiber content (by weight) across a variety of resin systems ranging from polypropylene to higher performance engineering polymers such as PEEK.