Profiles
Lightweight, structural, and reformable with heat
CFRTP profiles are structural elements and versatile composite feedstock. They can be used directly as load-bearing components or as raw stock for downstream processes including machining, additive manufacturing, forming, and heat-assisted shaping. Offered in rods, bars, plates, and custom geometries, CFRTP profiles deliver high strength-to-weight performance, corrosion resistance, and long-term durability while retaining the adaptability of thermoplastics.
Mechanical performance, chemical resistance, and environmental durability are tailored through material selection, fiber architecture, and fiber fraction.
Rods
Solid, unidirectional CFRTP rods for structural reinforcement and load-bearing applications.
Produced in diameters appropriate for structural use, with sizing defined by application and production configuration rather than fixed product limits.
Bars & Plates
Flat and rectangular CFRTP profiles for structural and surface applications.
Cross-sections are defined by load paths and integration requirements, with thickness, width, and length scalable through Continuous Forming.
Edging & Joining
Specialized profiles for edges, interfaces, joining, and custom formwork.
Designed for structural integration, with machinability and heat-formability enabling efficient field or factory adaptation.
Custom Development
Tailored geometries developed for unique structural applications.
Section geometry, material system, and fiber architecture are engineered to meet performance and manufacturing requirements.
Learn how Continuous Forming enables advanced custom profile capabilities.
Technical Snapshot
Materials
Polymers: Any commercially available thermoplastic, including PP, PE, PA, PET, PC, PEEK, PEI, and others.
Reinforcements: Typically continuous glass or carbon fibers. Basalt, natural fibers, aramid, fiber-optic, metallic, and other specialized reinforcements can be incorporated where required.
Performance
Fiber Architectures: Unidirectional for maximum axial strength or multi-axial for balanced, multi-directional performance.
Fiber Fraction: Typically 40–80% by weight.
Tailorable: Mechanical properties and durability are tuned through resin selection, fiber architecture, and fiber fraction.
ReForming
Joining: Weldable, machinable, and compatible with thermoplastic joining methods such as fusion or induction.
Forming: Heat-formable; works with compression molding, thermoforming, and other thermoplastic forming processes.
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