AMG promise to providing advanced and efficient customized carbide cutting tools to meet various precision machining needs. Relying on our manufacturing experience and technological advantages, we can create optimized tool products based on customer drawings or workpiece structure requirements, helping customers improve machining efficiency and reduce production costs.

Customization Capabilities:

Among them, the TiN-coated carbide boring tool is one of AMG's best-selling products, specifically designed for deep-hole boring processes of aviation structural components. It exhibits excellent high-temperature resistance and wear resistance, enabling high-precision and stable machining in extreme processing environments.

Specifications Table:

Working Principle

The TiN-coated carbide boring tool launched by AMG is specifically designed for deep-hole high-precision machining of aviation components. Through precisely controlled rotational speed and feed rate, the tool stably produces cylindrical holes with precise dimensions and consistent roundness.

TiN (titanium nitride) coating possesses excellent high-temperature resistance and oxidation resistance, which can effectively reduce cutting friction, prolong tool sharpness, and ensure hole diameter stability and surface quality during long-term continuous processing.

Advantages:

Precision machining of deep holes in aviation structural components for more stable size control

TiN coating reduces friction, prevents high-temperature oxidation, and extends tool life

Maintaining sharp cutting edges, suitable for long-term high-intensity machining tasks

Optional internal cooling design to enhance heat dissipation and chip removal during deep hole machining

FAQ:

1. What materials can this boring bar machine? Titanium alloys, nickel-based superalloys, stainless steels, and other aerospace-grade materials.

2. What are the benefits of TiN coating? Improved wear resistance, oxidation resistance, and thermal stability at high temperatures.

3. What cutting parameters are recommended? Speeds typically range from 50 to 150 m/min, depending on material and tool diameter.