High Precision CNC Milling Long Shaft Parts - Medical Accessories

Medical metal accessory lathe milling
September 12, 2025
Category Connection: Medical Machining Parts
Brief: Discover the High Precision CNC Milling Long Shaft Parts - Medical Accessories, engineered for critical medical applications. Made from medical-grade 316L stainless steel, these components meet ISO 13485 standards, ensuring biocompatibility, corrosion resistance, and ultra-smooth surfaces (Ra ≤ 0.4 μm) to minimize bacterial adhesion. Perfect for ventilator pressure pump systems.
Related Product Features:
  • Precision-engineered from medical-grade 316L stainless steel for superior corrosion resistance and biocompatibility.
  • Manufactured in compliance with ISO 13485 standards, ensuring high-quality medical device components.
  • Ultra-smooth surface finish (Ra ≤ 0.4 μm) reduces bacterial adhesion and enhances sealing performance.
  • Designed for critical medical applications, including ventilator pressure pump systems.
  • Advanced CNC machining and mirror-electrolytic polishing ensure operational stability in high-frequency environments.
  • Implant-grade cleanliness achieved through rigorous cleaning and dust-free packaging.
  • Custom specifications available upon request, including dimensions, threading, and additional coatings.
  • 100% quality inspection guarantees compliance with medical device requirements.
Faqs:
  • What material are these High Precision CNC Milling Long Shaft Parts made from?
    These parts are made from medical-grade 316L stainless steel, known for its high corrosion resistance and biocompatibility.
  • What standards do these medical accessories comply with?
    They are manufactured in strict compliance with ISO 13485 standards, ensuring high-quality and reliability for medical applications.
  • How does the surface finish of these parts benefit medical applications?
    The ultra-smooth surface finish (Ra ≤ 0.4 μm) minimizes bacterial adhesion, enhances sealing performance, and ensures operational stability in high-frequency ventilator systems.