Ballistic-resistant panels made with fiber-reinforced polymer (FRP) composites offer key properties enabling Southern States to meet its customers’ critical needs. Short, long and continuous fiber composites available in pellet or semi-finished forms

With a weight savings of more than 50% versus plywood, these continuous-fiber reinforced thermoplastic sandwich panels offer boat manufacturers a lighter, more efficient alternative to traditional marine construction materials.  Hammerhead Marine Composite Panels consist of thermoplastics, continuous glass-fiber face sheets, and foam cores.

Surround long-fiber material is well suited to housings for advanced driver assistance systems (ADAS) because of its capability to replace metal in shielding applications. Integrated, long-fiber EMI/RFI shielding formulations – minimizes system damaging “cross talk” between electronic components

In recent years, white opaque PET bottles for dairy applications have been under increasing scrutiny for the potential effects their mineral fillers can have on the recycle stream used to create fiber. Complete with food contact approvals for the European Union and FDA, this new Lactra additive is compatible with the PET recycle stream for fibers, sheet, and strapping.  

The performance of these fiber reinforced composite panels can be optimized by adapting panel thickness, core density, and skin configuration to achieve desired properties.

They are custom engineered to meet specific performance requirements: core thickness can be varied to change stiffness, core materials can be selected to achieve weight targets, fiber choice can modify stiffness-to-weight ratio, and the polymer matrix choice affects strength.

The performance of these fiber reinforced composite panels can be optimized by adapting panel thickness, core density, and skin configuration to achieve desired properties.

The performance of these fiber reinforced composite panels can be optimized by adapting panel thickness, core density, and skin configuration to achieve desired properties.

The performance of these fiber reinforced composite panels can be optimized by adapting panel thickness, core density, and skin configuration to achieve desired properties.

They are custom engineered to meet specific performance requirements: core thickness can be varied to change stiffness, core materials can be selected to achieve weight targets, fiber choice can modify stiffness-to-weight ratio, and the polymer matrix choice affects strength.