HRC55 1mm Solide Carbide End Mill 2 Flutes Long Neck Short Flutes Square End Mill

Product Description:

An HRC 55 carbide 2-flute long neck, short flutes square end mill with TiAISiN coating is a precision cutting tool, designed for machining hard materials with high accuracy.

Advantages:

• Increased Tool Life: Both TiAISiN coating offers superior wear resistance, reducing tool replacement frequency and ensuring consistent performance.
• Enhanced Heat Resistance: These coatings enable the tool to operate effectively at high speeds and temperatures, which is critical when working with harder materials.
• Precision and Stability: The combination of short flutes and a long neck allows for stable, vibration-free cutting, making the tool ideal for intricate and precise machining tasks.
• Improved Chip Evacuation: The 2-flute design and coatings help prevent chip clogging and heat buildup, ensuring smooth, efficient cutting performance, particularly in hard materials.

Features:

• Product Name:2 Flutes Long Neck Short Flutes Square End Mill
• Cut Diameter: 1mm
• Cut Length: 2m
• Shank Diameter: 4mm
• Effective Length: 5mm
• Overall Length: 50mm
• Sample Order: Accepted
• Coating/Finish Type: TiAISiN
• Flute Type: Square End
• Customize: Available

Applications:

• High-Precision Machining: Ideal for industries like aerospace, mold and die manufacturing, and automotive, where high accuracy is required when machining hardened steels, titanium, and high-temperature alloys.
• Deep Pocket Milling: The long neck allows for machining deep cavities and hard-to-reach areas without tool deflection or vibration, making it useful in 3D milling and contouring.
• Slotting and Pocketing: The 2-flute design is particularly well-suited for cutting slots and pockets in hard materials while maintaining smooth chip evacuation.
• Finishing Operations: Short flutes provide high rigidity, reducing deflection and enabling smooth finishing passes with excellent surface quality.
• Hard Material Machining: Specifically designed for cutting hardened steels, titanium alloys, and superalloys up to 65 HRC, particularly in high-speed machining (HSM) or dry cutting conditions.