Medical Device Components
C-Axis produces the critical components that power today’s most advanced medical devices. With expertise in precision machining, laser manufacturing, and micro-feature development, we create reliable, tight-tolerance parts for a wide range of clinical applications. Our integrated capabilities ensure accuracy, repeatability, and quality at every stage.
C-Axis manufactures high-precision components for implantable, surgical, and minimally invasive medical devices. Our advanced multi-axis machining, laser processing, and finishing technologies allow us to produce complex geometries, micro-features, and tight-tolerance parts with exceptional accuracy and repeatability. From prototypes to full production, we deliver components that meet rigorous medical, mechanical, and regulatory requirements.
Advantages:
- Reduce product development costs
- Reduce time to market
- More manufacturable product
- Assistance with Print tolerances and GD&T
- More cost-effective material selection with better lead times
- Recommendations for finishing
- Recommendations for Inspection methods
- Full document control system for change history
Examples of Medical Device Components We Manufacture
- Implantable components including orthopedic, cardiovascular, spinal, and trauma applications
- Surgical instrument components designed for strength, durability, and biocompatibility
- Minimally invasive device components with micro-machined features and precision tubing
- Cannulas, trocars, and needle components for access and delivery systems
- Housings, connectors, and assemblies for powered and mechanical devices
- Custom metal components requiring complex geometries or advanced surface finishing
- Prototype components for early design iterations and clinical evaluation
Other Capabilities
Precision Machining
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We look at C-Axis 360 as an opportunity for our customers to save weeks of development time by having their project team come into our facility. Here they are assigned a C-Axis team (an Engineer, Technician, and Machinist) to work with to complete multiple iterations in one sitting, helping to improve the R&D timeline. Instead of doing things in series, our customers can do multiple potential design iterations in parallel and save six or seven weeks in their NPD cycles. — Olson