Automated fabrication systems utilizing computer numerical control (CNC) technology often employ lightweight, high-strength materials for component creation. One such material is a composite consisting of thin, strong crystalline filaments of carbon bonded together with a resin matrix. This combination offers exceptional stiffness and dimensional stability, making it ideal for producing complex parts with intricate details. An example application is the manufacturing of intricate molds for aerospace components.
The adoption of these advanced composites in conjunction with CNC machining offers significant advantages. The material’s high strength-to-weight ratio allows for the creation of lighter, more efficient parts, leading to improved performance in applications like robotics, automotive manufacturing, and medical device production. Historically, achieving such precision with these materials presented significant challenges. Advancements in tooling, software, and machining techniques have overcome these hurdles, enabling widespread adoption across various industries.