Diamond Cylinder Bit – Medium Grit (Blue)
The NFS Diamond Cylinder Bit is a precision e-file bit designed for controlled cuticle preparation, sidewall refinement, and detailed work around the natural nail. Its straight cylinder shape provides excellent stability and accuracy, making it ideal for refining the cuticle area and smoothing hard-to-reach areas without damaging the nail plate.
Featuring a medium grit (blue) diamond coating, this bit delivers efficient performance while maintaining excellent control, making it a versatile choice for professional nail technicians.
Perfect For
✔ Refining the cuticle area
✔ Cleaning sidewalls
✔ Removing non-living tissue
✔ Smoothing rough skin around the nail
✔ Preparing the natural nail plate
✔ Russian Manicure techniques
Features
- Premium diamond coating
- Medium Grit (Blue)
- Straight cylinder design for precision work
- Long-lasting professional performance
- Smooth, controlled cutting action
- Fits all standard 3/32" e-file machines
Recommended Speed
8,000–15,000 RPM
Use light pressure and allow the diamond coating to do the work. Avoid excessive pressure to maximise the lifespan of the bit and ensure client comfort.
Grit Guide
🔵 Blue Ring = Medium-Coarse Grit
The blue ring indicates a medium-coarse grit, offering faster refinement than a red bit while still maintaining excellent control. Ideal for technicians looking for efficient cuticle preparation and detailed refinement.
Why You'll Love It
- Precise and controlled refinement
- Excellent for sidewall and cuticle detailing
- Removes non-living tissue efficiently
- Premium diamond coating for long-lasting durability
- A must-have for professional Russian Manicure services
Product Specifications
- Material: Diamond-coated stainless steel
- Shank Size: 3/32" (2.35 mm)
- Grit: Medium-Coarse (Blue)
- Suitable For: Professional salon use
- Sterilisable: Yes
Professional Use Only
Clean, disinfect, and sterilise the bit after every client in accordance with your local health and safety regulations. Inspect the bit regularly and replace it when signs of wear become visible to maintain optimal performance.