The GMG30100 is a solid carbide micro grain milling cutter from YG-1 Tool Company. YG-1 is a global manufacturer of cutting tools, recognized for producing high-performance end mills, drills, taps, and dies. The GMG30100 is designed for precision milling in a variety of materials, offering exceptional performance and tool life.

Applications

• Mold and die making
• Aerospace component machining
• Medical device manufacturing
• Automotive part production
• Precision engineering

Features

• Solid carbide construction for high rigidity and wear resistance
• Micro grain carbide substrate for enhanced cutting edge strength
• Optimized flute design for efficient chip evacuation
• Multi-layer coating for increased tool life
• Precision ground cutting edges for superior surface finish

Benefits

• Improved surface finish on machined parts
• Extended tool life, reducing tooling costs
• Increased machining productivity due to higher cutting speeds and feeds
• Enhanced accuracy and precision in milling operations
• Reduced vibration and chatter during machining

Technical Specifications

The GMG30100 typically features a diameter of 3.0mm, a flute length of 10.0mm, and an overall length of 75mm. It's constructed from premium micro grain solid carbide, ensuring high hardness and resistance to wear. The multi-layer coating, often TiAlN (Titanium Aluminum Nitride), enhances its heat resistance and reduces friction, prolonging the tool's life. The optimized flute geometry promotes efficient chip removal, preventing chip re-cutting and improving surface finish. The tool is designed for both wet and dry machining conditions and can be used on a wide range of materials, including alloy steels, stainless steels, and non-ferrous materials.

This end mill is specifically engineered for high-precision applications where surface finish and dimensional accuracy are critical. It's ideal for machining complex shapes and features in demanding materials. The GMG30100’s robust design and advanced coating technology ensure consistent performance and reliability, making it a valuable tool for manufacturers seeking to optimize their machining processes.