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Swiss precision. Medical-grade reliability.

Tight Tolerances. Cleanroom quality. Real collaboration between machinists and design engineers.

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Machining and design working side-by-side for faster, more reliable builds.

Our precision machining group supports the most demanding applications in catheter and stent manufacturing.

We specialize in high-mix, low-volume medical components that require accuracy to the tenth.

Because our machining experts sit next to our design engineers, manufacturability feedback happens in minutes, not days - reducing rework, improving yield, and delivering consistent quality.

Swiss precision medical example

Ultra-precise Swiss turning and milling for complex medical components.

  • Swiss turning (±0.0001" tolerance)
  • Vertical milling for complex geometries
  • Quick-turn prototype and small-lot runs
  • Material expertise: stainless steel, titanium, PEEK, brass
  • Full traceability and documentation
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Frequently asked questions

Can you actually hold the tolerances we need — consistently?

Yes. Our Swiss team routinely holds ±0.0001" on medical-grade components.

We combine the right machines, the right tooling, and closed-loop SPC to keep every part within a very tight window — not just the first article.

For components used in stent cutting, catheter tooling, and precision fixturing, this level of repeatability is our standard, not our exception.

Do you support low-volume, high-mix parts without long lead times?

That’s our sweet spot.

Because our machinists sit feet away from our design engineers, manufacturability feedback happens the same day — often the same hour.

We can turn prototypes quickly, adjust designs immediately, and run small lots without the scheduling friction of a traditional job shop.

What materials can you machine at this accuracy?

We machine a wide range of medical-grade materials, including:

  • Stainless steels (303, 304, 316, 17-4)

  • Titanium

  • PEEK and other engineered plastics

  • Brass and copper alloys

We understand how each material behaves — its chip load, its wear characteristics, and how it affects tool life and cost — so you get predictable quality and honest guidance.

How do you guarantee quality on small, sensitive, or asymmetrical parts?

We rely on a combination of:

  • Precision Swiss turning

  • Carefully engineered tooling and work-holding

  • Laser micrometry and pin-fit inspection

  • Full documentation and traceability

For one stent-line component, tightening our process window delivered a 27% yield improvement for the customer — simply by reducing variation at the source.

Can you help me design the part so it’s actually manufacturable?

Absolutely.

We catch issues before they become expensive: impossible tolerances, uncuttable radii, flat-bottom holes, unrealistic GD&T, or geometries that require unnecessary secondary ops.

Because we design and machine under one roof, we give you real-time DFM guidance — and we only recommend tolerances that can be achieved reliably and economically.