The groundbreaking new Glasforms resin formulations provide improved adhesive properties for thermoset pultrusions, enabling exceptional bonding performance for end products.     Improved Adhesion in Pultruded Composite Materials and Test Methods for Evaluation •    Continuous Fiber Reinforced Thermoplastic Application Development and Implementation: Case Study Review •    Overmolding with Continuous Fiber Reinforced Thermoplastic Composites for Selective Reinforcement •    Test Sample Preparation of Pultruded Unidirectional Carbon Parts – Issues in Machining Practice and Alternatives The Avient advanced composites portfolio includes Polystrand™ continuous fiber reinforced thermoplastics, Gordon Composites™ thermoset barstock and laminates, and Glasforms™ thermoset pultrusions.

These specialty adhesive TPE solutions are easy to process and shape, enabling a strong bond with highly elastic fabrics. Fiber-Line™ Engineered Synthetic Fiber Products Fiber Additives

If adhesion is poor, the composite can fail. Fiber adhesion can be improved by treating or coating the fibers and by adding coupling agents to the formula. Used in plastics are solid or hollow spheres or microspheres, which may be coated with coupling agents to improve bonding between the glass and the polymer.

If adhesion is poor, the composite can fail. Fiber adhesion can be improved by treating or coating the fibers and by adding coupling agents to the formula. Used in plastics are solid or hollow spheres or microspheres, which may be coated with coupling agents to improve bonding between the glass and the polymer.

If adhesion is poor, the composite can fail. Fiber adhesion can be improved by treating or coating the fibers and by adding coupling agents to the formula. Used in plastics are solid or hollow spheres or microspheres, which may be coated with coupling agents to improve bonding between the glass and the polymer.

If adhesion is poor, the composite can fail. Fiber adhesion can be improved by treating or coating the fibers and by adding coupling agents to the formula. Used in plastics are solid or hollow spheres or microspheres, which may be coated with coupling agents to improve bonding between the glass and the polymer.

If adhesion is poor, the composite can fail. Fiber adhesion can be improved by treating or coating the fibers and by adding coupling agents to the formula. Used in plastics are solid or hollow spheres or microspheres, which may be coated with coupling agents to improve bonding between the glass and the polymer.

If adhesion is poor, the composite can fail. Fiber adhesion can be improved by treating or coating the fibers and by adding coupling agents to the formula. Used in plastics are solid or hollow spheres or microspheres, which may be coated with coupling agents to improve bonding between the glass and the polymer.

If adhesion is poor, the composite can fail. Fiber adhesion can be improved by treating or coating the fibers and by adding coupling agents to the formula. Used in plastics are solid or hollow spheres or microspheres, which may be coated with coupling agents to improve bonding between the glass and the polymer.

Selective commercial grades of TPEs and developmental TPEs bond to crystalline polymers such as Acetal (POM), Nylon 6, Nylon 6,6, Copolyester , Polybutylene terephthalate (PBT). The interface of the TPE and rigid substrate plays a vital role in determining not only the bond strength, but also the type failure; i.e. In some instances, good bonding exists even in the mechanism of adhesive failure.