FOS Inon Fiber Optic Kabeltechnik in der industriellen Fertigung.

CNC Parts

Precise. Stable. Sophisticated.

CNC-manufactured components form the backbone of many high-technology applications—from photonic systems to medical devices. At FOS Inon Fiber Optics, we combine a deep understanding of optical and precision mechanical requirements with state-of-the-art CNC technology. The result: CNC parts that are more than mere geometry—they are functionally integrated solutions engineered for the highest precision.

Our CNC manufacturing specializes in the machining of demanding materials such as aluminum, stainless steel, titanium, and engineering plastics used in photonics and medical technology. We achieve micrometer-level tolerances and optically relevant surfaces where conventional mechanics reach their limits.

Expertise Meets In-depth Manufacturing

We manufacture CNC components for:

Opto-mechanical assemblies and optical adjustment units
Assembly aids and precision mounts for laser systems
Miniaturized parts for medical technology and biophotonic systems
Custom-specific prototypes for testing and validation
Series parts for OEM systems with consistently high reproducibility

Our CNC prototyping service enables the rapid production of individual parts and small series—ideal for agile development cycles in research and industry. In photonics, microscopic details are paramount: tolerances in the µm range, defined edge radii, and vibration-free fits. Our CNC technology is designed to meet these specifications.sungen. Unsere CNC-Technik ist darauf ausgelegt.

An Overview of Our CNC Competencies

CNC Machining of Medical Components: Biocompatible materials, superior surface quality, and documented traceability.
CNC Parts for Photonics: Mechanics for waveguides, lens mounts, and optical assemblies.
CNC Manufacturing of Optical Components: Machined mounts and holders for optical elements.
CNC Prototyping Services: Fast, flexible manufacturing for development, feasibility studies, and testing.
Precision CNC Parts for Photonics: µm-accurate components for laser systems, sensor technology, and spectroscopy.
CNC Parts for Laser Technology: Thermally stable, precisely fitting mechanics for beam guidance and optics carriers.
Precision Mechanical CNC Machining for Medicine: Highest precision for tight tolerances and complex geometries.

Why FOS Inon Fiber Optics?

We understand not only the “how” of manufacturing but also the “why” behind every part. Our clients benefit from a level of manufacturing depth that combines CNC expertise with optical know-how—ideal for photonic, medical technology, and analytical applications.

Why Choose Light Guides from FOS Inon Fiber Optics?

Quality “Made in Germany” pays off. Thanks to our proprietary manufacturing and testing processes, we offer custom solutions for numerous applications, from laboratories to aerospace.

Excellent Performance

Optimal performance across various spectral ranges (white light, UV, NIR), achieved through state-of-the-art manufacturing processes and custom concepts tailored specifically for your application area.

Temperature-Resistant

Whether for cold or warm application environments, thanks to special jacketing, our glass fibers remain stable at temperatures ranging from -190°C to 390°C.

Acid-Resistant

Our light guides withstand adverse conditions thanks to their high chemical resistance.

Stabil & flexible

Thanks to the flexibility of the fiber optic cables, pressure is not a problem. Their bending strength is enormous, and very small bending radii are possible, ensuring the fiber optic cables remain reliably in use for a long time.

Sustainable

FOS INON Optics is committed to using the most environmentally friendly manufacturing, logistics, and communication processes possible. Think green!

Support and Experience

You are not just buying a product; you are benefiting from our expertise and extensive experience in the fiber optics industry. Our team of experts is happy to advise you and will support you in the planning and implementation of your projects.

Manufacturing Process

To ensure our light guides and fiber optic products meet the highest standards, we rely on a specialized manufacturing process. This allows us to guarantee exceptional chemical and tactile robustness so they can perform optimally in their respective environments. Precision is a critical factor in this, true to our motto: “Making the impossible happen.”

Materials Used

Borosilicate: Glass with high temperature resistance and chemical resilience.
PMMA (Polymethylmethacrylate): A thermoplastic, lightweight plastic with high light transmittance.
Silica-Hard Clad: A robust plastic coating for improved strength and durability.
Silica-Silica for UV and NIR Wavelengths: Our specialized glass fibers, optimized for the transmission of light in the ultraviolet (UV) and near-infrared (NIR) ranges.

Optional Specifications:

Various apertures available
Polarization can be maintained
Anti-reflection coating possible
Various lengths, diameters, bending radii, converters, and vacuum feedthroughs optional
Various connectors and ferrules suitable for industry and medicine

Applications

Feel free to contact us to discover how we can lead your projects in medical technology and photonics to success.

CNC Parts:

CNC Machining of Medical Components
CNC Parts for Photonics
CNC Manufacturing of Optical Components
CNC Prototyping Services
Precision CNC Parts for Photonics
CNC Parts for Laser Technology
Precision Mechanical CNC Machining for Medicine
… and much more!

Learn More

Do you require further information, a customized quote, or expert consultation for your project? We are at your disposal at any time.

Arrange free consultation

FOS Inon Glasfaseroptik für präzise Datenübertragung und Kommunikation.

Reliability doesn’t happen by chance.
At FOS Inon Optics, quality is not just a promise—it is a standard that can be measured. Our development and manufacturing processes for fiber-optic systems are ISO 9001:2015 certified. This establishes the foundation for reliable performance, reproducible results, and trust wherever optical precision is critical.