423X 060 HP CUTTER EGG X-CUT CARB - (Pack of 1)

The carbide egg cutter medium double cut from Busch & Co. GmbH is a precision rotary cutting instrument engineered for demanding applications across dental, technical, and industrial disciplines. Featuring an egg-shaped head geometry combined with a medium double cut pattern, this carbide cutter delivers controlled material removal with a refined surface finish.

Product Details

• Type: Carbide Cutter, Egg Shape
• Cut: Medium Double Cut
• Standard Classification: ISO: 500 104 277 190 060
• Pack Quantity: 1 piece
• Origin: Made in Germany

Applications

The carbide egg cutter medium double cut is suited for a wide range of professional applications, including:

• Model Making – precise shaping and contouring of model materials
• Plastics Technology – efficient trimming and finishing of plastic components
• Crown and Bridge Technology – accurate preparation and adjustment work in prosthetic dentistry
• Model Casting Technique – reliable material removal on cast models

Why Choose This Cutter

Busch carbide instruments are manufactured in Germany to exacting standards. The medium double cut configuration of this carbide egg cutter medium double cut balances aggressive cutting action with smooth surface results, making it suitable for both rough shaping and intermediate finishing stages. The egg geometry allows access to contoured and concave surfaces that flat or cylindrical cutters cannot reach effectively.

FAQ

What shank type does this cutter use? This cutter is designed for HP (Handpiece) shank compatibility, suitable for straight handpiece use in laboratory and technical applications.

Is this cutter suitable for dental laboratory use? Yes, the carbide egg cutter medium double cut is well suited for crown and bridge technology, model casting, and related dental laboratory tasks.

What does the ISO classification 500 104 277 190 060 indicate? The ISO number describes the standardized form, dimensions, and cut specification of this rotary instrument, ensuring interoperability across compatible handpiece systems.