Chip Removal Lollipop Cutter Tool 4 Flutes Precision Lollipop Ball Nose Cutter

AMG introduces this 3-flute aluminum-specific lollipop ball nose cutter, specially developed for the precision machining of lightweight automotive components.

This high-performance tool is made from ultra-fine grain carbide and features a polished flute surface along with a relieved neck design, effectively solving common issues in aluminum machining such as built-up edge, chip evacuation difficulty, and tool interference.

Its unique "lollipop" style ball head enables efficient high-precision milling of complex cavities, deep grooves, and ribbed structures on five-axis machines, making it especially suitable for automotive lightweight structural parts.

This tool is ideal for the 3D contouring and finishing of lightweight automotive parts such as battery trays, shock absorber components, reinforcement ribs, heat dissipation structures, and internal housing cavities. It performs exceptionally well in multi-axis operations where interference avoidance is critical.

The tool features a thin neck design and ball head structure, allowing easy entry into narrow or recessed areas for machining without causing interference.

The 3-edge design not only enhances chip evacuation efficiency but also maintains good cutting balance during high-speed light cutting, achieving high-quality surface finish and contour accuracy.

This tool is particularly suitable for continuous machining with multi-axis linkage, and can stably handle precision milling tasks involving various curved surfaces, inclined surfaces, and complex internal cavity structures. It is widely used in mold manufacturing, automation components, medical devices, and precision machining in the aviation industry.

• High efficiency in aluminum cutting with reduced risk of built-up edge
• Lollipop ball nose design optimized for complex surface machining
• Relieved neck prevents interference in deep cavities and ribbed structures
• 3-flute design enhances cutting smoothness and surface quality