OptiMill®-Uni-HPC

New generation for maximum process reliability

MAPAL presents the third generation of the solid carbide milling cutter OptiMill-Uni-HPC -optimised for automated manufacturing and high cutting performance.

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Configurable cutting-edge design
- Chamfer for high-level wear protection
- Radii for near-net-shape machining
- Sharp cutting edge design
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Optimised geometry
- Stable machining at high infeed depths
- Very good chip formation
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Newly developed cutting material
- Lower risk of tool breakage
- High degree of process reliability during dynamic machining
- High degree of ductility under impact strain
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Integrated chip breaker
- Short chips that are easy to remove

The new OptiMill-Uni-HPC for machining steel, stainless steel and castings has been specially
developed for automated processes and meets the highest requirements for process reliability, stability and resistance to wear.

The newly developed cutting material has a high ductility, reducing the risk of tool breakage.
Combined with wear-resistant coatings and optimised geometry, this results in a tool that’s ultra-reliable, even in dynamic machining.

A version with an integrated chip breaker is a new addition to the OptiMill-Uni-HPC range. It
creates short chips that are easy to remove – offering clear benefits for air cooling and high
cutting performance and enabling high infeed depths.

結果、マシンの稼動時間が延び、作業者の手間が減り、加工の安定性が向上します。これは特に無人シフトや自動化されたワークフローに最適です。

The picture shows 3 OptimillUniHPC milling cutters

2025年9月からこのエンドミルは以下の3つのバリエーションで提供されます。

ショートタイプ（チップブレーカなし） (φ 3 ～φ 20)
ロングタイプ（チップブレーカなし） (φ 3 ～φ 25)
ロングタイプ（チップブレーカあり） (φ 6 ～φ 25)

This sees MAPAL draw on the targeted development of a tried-and-tested concept – for more
efficiency, process reliability and versatility in modern machining.

OptiMill®-Uni-HPC

New generation for maximum process reliability

Configurable cutting-edge design

Optimised geometry

Newly developed cutting material

Integrated chip breaker