Surgical Cannula, Manufacturer

Minimally Invasive Surgical Cannula – Full Cut SUS316 CNC Turning & Milling Component

This minimally invasive surgical cannula (Model: Full Cut‑SUS316) is a precision stainless steel component designed for use in laparoscopic and other minimally invasive procedures. Manufactured from SUS316 and processed by CNC turning followed by CNC milling, the surgical cannula maintains stable dimensions, smooth surfaces, and consistent cutting geometry suited to clinical use.

Product Information

SUS316 is selected for its corrosion resistance and mechanical strength in contact with bodily fluids, cleaning agents, and sterilization cycles. The outer profile, inner bore, and tip geometry of the surgical cannula are formed and refined on CNC equipment to match drawing specifications and standard cannula interfaces.

Key Characteristics of the Surgical Cannula

• Precision Tip Geometry: Controlled cannula tip and edge geometry to support minimally invasive access and smooth insertion.
• Sterilization Support: SUS316 stainless steel construction that supports repeated autoclave sterilization and cleaning.
• Consistent Dimensions: Consistent inner and outer diameters along the length of the surgical cannula to help maintain fluid flow or instrument passage.
• High Accuracy: CNC turning and milling used to achieve concentricity, straightness, and accurate connection features.
• Production Scalability: Manufacturing route suitable for prototype builds, validation lots, and ongoing production.

Application of the Minimally Invasive Surgical Cannula

This surgical cannula can be configured for:

• Minimally invasive surgical access in operating rooms
• OEM medical devices where a stainless steel surgical cannula is integrated with valves, ports, or handles
• Custom projects that require specific lengths, diameters, and connection types for cannula‑based instruments

By providing 2D / 3D drawings, dimensional requirements, and expected quantities, medical device engineers can collaborate with the machining team to develop a surgical cannula that matches their instrument design, sterilization method, and clinical use scenario.