This Markforged material provides continuous reinforcement in carbon fiber 3D printing to produce high-strength composite parts for demanding industrial applications. It offers exceptional stiffness, low weight, and reliable performance under load, making it a core material for engineering teams building functional, production-ready components.
Carbon Fiber is one of the strongest lightweight structural materials available for additive manufacturing. When used in industrial reinforcement 3D print systems, it produces components capable of replacing machined aluminum in many applications. The material delivers high tensile strength, excellent stiffness, and minimal deformation under load. As a result, engineers rely on it for brackets, tooling, end-effectors, and structural components that must maintain accuracy during repeated use.
Carbon fiber 3D printing places continuous strands inside a composite base material to create parts with enhanced load-bearing capability. This reinforcement method supports demanding mechanical requirements while keeping part weight low. In addition, it maintains dimensional stability, supports tight tolerances, and provides consistent performance under thermal or mechanical stress. As a result, it is routinely selected for production parts that must remain rigid and reliable in industrial environments.
Carbon Fiber provides stiffness and low mass for modern part design. Its high strength-to-weight ratio supports complex geometries while maintaining structural stability under load. In addition, the high-strength composite parts integrate smoothly into additive workflows, especially when paired with engineering polymers like Onyx®. This combination allows engineers to produce reinforced components that are accurate, rigid, and reliable throughout continuous industrial use.
