425GXA 060 HP COARSE XA-CUT CARB - (Pack of 1)

The flame carbide cutter coarse double cut from Busch & Co. GmbH is a precision rotary tool engineered for demanding material removal in model making and plastics technology. Designed with a left-twisted cutting geometry, this HP (handpiece) shank cutter delivers aggressive yet controlled stock removal across a variety of materials.

Product Overview

The 425GXA 060 is a flame carbide cutter coarse double cut featuring a left-twisted XA-cut pattern. This coarse double cut configuration generates larger chips, reduces clogging, and improves cutting efficiency — making it particularly well suited for shaping, contouring, and material removal in technical and industrial applications.

• Shape: Flame
• Cut Type: Coarse Double Cut (XA-Cut)
• Twist Direction: Left Twisted
• Shank: HP (Handpiece)
• Head Size: 060
• Pack Quantity: 1

Applications

This flame carbide cutter coarse double cut is designed for use in the following fields:

• Model Making — precise contouring and shaping of models and prototypes
• Plastics Technology — efficient material removal in thermoplastic and similar materials

Made in Germany

Manufactured by Busch & Co. GmbH in Germany, this tool reflects decades of expertise in precision rotary instruments. German engineering ensures consistent quality, tight dimensional tolerances, and reliable performance across every use.

FAQ

What makes a coarse double cut suitable for plastics? The coarse double cut geometry removes material quickly and clears chips efficiently, reducing heat build-up and preventing material from loading the flutes — both critical factors when working with plastics.

What does left-twisted mean on this flame carbide cutter coarse double cut? Left-twisted flutes direct cutting forces and chip evacuation in a specific direction, improving control and surface finish depending on the rotation direction of the handpiece.

Is this a single-use or reusable instrument? Carbide cutters of this type are generally reusable and can be cleaned and sterilized according to standard workshop or laboratory protocols, though service life depends on application and material hardness.