TiAlN Coated Carbide Through Coolant Drill For Engine Block Deep Hole Machining

AMG’s TiAlN-coated carbide through-coolant drill is engineered for high-efficiency and high-precision deep hole machining in engine manufacturing. Use ultra-fine grain carbide substrates with advanced TiAlN PVD coatings, these drills have exceptional wear resistance, heat resistance, and stability during high-speed and long-depth drilling operations on aluminum alloy, cast iron, and steel engine blocks.

Applications:

• Engine Block Machining: Drilling oil holes, water cooling channels, and head bolt holes in automotive and motorcycle engine blocks.

• Automotive Manufacturing: Suitable for aluminum alloy, cast iron, and CGI engine components requiring high precision and clean bore finishes.

• Powertrain Component Manufacturing: Used for crankcases, cylinder heads, and transmission housings.

Specifications Table:

Working Principle
The AMG TiAlN-coated carbide through-coolant drill uses high-speed rotation and optimized chip evacuation while coolant passes internally through the drill to the cutting edge. This ensures effective heat dissipation and lubrication, prevents thermal deformation, and remain consistent hole quality during deep hole drilling in engine blocks. The TiAlN coating reduces friction and oxidation at high temperatures, while the precision-ground geometry enhances centering and drilling stability.

Advantages:
✅ Extended Tool Life: TiAlN coating offers superior heat and wear resistance during high-speed drilling.
✅ Efficient Chip Evacuation: Through-coolant design prevents chip packing and breakage in deep hole drilling.
✅ High Stability: AMG’s precision manufacturing ensures excellent concentricity for high-accuracy holes.
✅ Smooth Bore Finish: Offer low roughness and clean hole surfaces, reducing the need for additional honing.

FAQ

1. What materials can this drill handle?
It is suitable for aluminum alloys, cast iron, compacted graphite iron (CGI), and steel engine blocks.

2.Why is the TiAlN coating beneficial?
TiAlN provides excellent thermal stability and reduces friction, extending tool life during high-speed and dry or MQL machining.

3. What is the recommended cutting speed?
Typical speeds are 60-150 m/min for cast iron and 150-300 m/min for aluminum alloys, depending on the coolant system and machine rigidity.

Changzhou AMG Precision Tool Manufacturing Co., Ltd. is a manufacturer specializing in the production of solid carbide cutting tools, including end mills, drills, reamers and customized non-standard tools. We are equipped with advanced German Walter grinders and Zoller measuring instruments to ensure that each product has excellent precision and consistency.

By sourcing premium quality carbide rods from leading national and international suppliers and adhering to stringent quality control standards, we meet the most demanding industrial requirements.

AMG Precision is committed to innovation and excellence, providing high-performance cutting solutions for a variety of processing applications.