Product English Description:
The TM-6R series 6-flute R end mills are precision cutting tools designed specifically for high-performance titanium alloy machining. These end mills are made from high-quality tungsten carbide, offering exceptional durability and wear resistance. The 6-flute design enhances cutting stability, ensuring smooth and efficient milling even under heavy-duty machining conditions.
The TM series features a radius (R) design, making it ideal for tasks that require precise edge finishing and contouring. With a 55° helix angle, these end mills provide excellent cutting performance and chip removal, ensuring that materials such as titanium and other hard alloys are processed with minimal heat buildup and tool wear.
Coated with AICrXN, a high-performance coating, these end mills provide superior heat resistance, wear resistance, and reduce the friction between the tool and workpiece. This allows for high-speed cutting without compromising tool life, making these end mills the perfect choice for demanding operations in the aerospace, automotive, and medical industries.
Available in a range of sizes (from 10mm to 25mm in diameter), these end mills are versatile and capable of handling both roughing and finishing operations. Their precision, durability, and high-speed performance ensure consistent results even in the most challenging machining tasks.
Key Features:
6-flute design for improved cutting stability and chip removal
Made from high-quality tungsten carbide for exceptional durability
Ideal for titanium alloy and hard material machining
AICrXN coating for superior heat resistance, wear resistance, and reduced friction
55° helix angle for smooth cutting performance and excellent surface finishes
Available in diameters from 10mm to 25mm, suitable for a variety of applications
Upgrade your machining operations with the TM-6R series 6-flute R end mills. These tools offer the perfect combination of high-speed performance, durability, and precision, allowing you to achieve superior results when working with titanium and other hard materials.
