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Home / Small Diameter, Multi-Edge High Feed Endmill

Small Diameter, Multi-Edge High Feed Endmill

The MFH Mini endmill from Kyocera supports the higher precision rough processing required for mold applications.

Posted: January 29, 2016

The small-diameter MFH Mini high-feed endmill from Kyocera uses a unique design that reduces impact on the insert when making initial contact with the workpiece to achieve smooth cutting with low resistance, reduce chatter and increase feed rates. The MFH Mini also exhibits high chip evacuation due to its newly developed chipbreaker.
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Kyocera Precision Tools, Inc. (Hendersonville, NC) announced the launch of the MFH Mini, a small-diameter, high-feed endmill [1] for processing metal parts. This new tool achieves highly efficient processing utilizing a proprietary, newly designed insert and is now available in cutting diameters ranging from 0.625 in to 1.250 in.

A high-feed endmill is a cutting tool utilized to rough cut the surface of metal across a broad area. The insert requires high cutting capability which allows for quicker and more stable processing of the workpiece. To meet these needs, Kyocera developed the MFH-Raptor, a high efficiency, high feed cutter, in 2014. After its introduction, to support higher precision cutting technology required for processing molds, the company developed the small diameter, high feed MFH Mini endmill for rough processing. It consists of a newly developed insert and dedicated holder. The insert features a unique design which reduces impact on the insert when making initial contact with the workpiece, thus achieving smooth cutting with low resistance. As a result, the product reduces chattering and enables increased feed rates. The MFH Mini also exhibits high chip evacuation due to the design of the newly developed chipbreaker. This tool is available with both a CVD [2] and PVD [3] coated insert. Utilizing an insert with the ideal coating based on work material characteristics enables the endmill to deliver optimal wear and fracture resistance.

Through an enhanced feed rate, excellent chip evacuation performance and an optimal insert lineup, the new MFH Mini achieves highly efficient, stable processing and contributes to productivity improvements. Features include:

  1. Low resistance that is designed specifically for small diameter, high-feed endmills. The insert enables smooth cutting with low resistance by applying a uniquely-shaped edge developed to cushion initial shock at the moment of workpiece contact — the onset of cutting. The new insert also improves chip evacuation problems that typically occur when slotting and pocketing and improves stability, contributing to high-efficiency processing.
  1. The new low-resistance insert reduces cutting resistance and chattering for highly efficient high-feed processing for applications including small machines (BT30/BT40) with increased feed rates. The MFH Mini also delivers high economic efficiency through its double-sided, four-edge negative insert.
  1. Applicable to multiple types of processing and work materials. The newly developed LOGU insert with the GM chipbreaker is ideal for face milling, shouldering, contouring, slotting, pocketing, ramping, and helical milling required for mold processing and other applications. Moreover, the insert material exhibits increased wear- and fracture-resistance when the company’s unique CVD/PVD coating is applied to the insert’s high-toughness, cemented carbide base material. This enables the processing of various materials ranging from general and mold steels to traditionally difficult-to-cut materials such as Ni-based heat-resistant alloys, thus meeting the diverse needs of customers.

[1] A high-feed endmill is a milling cutter for which feed rates per flute can be set high.

[2] A coating method utilizing chemical vapor deposition, which allows for the formation of multiple layers of film with different materials to increase film thickness.

[3] A coating method utilizing physical vapor deposition. Because of its lower processing temperature compared with the CVD method, there are fewer layers which deteriorate due to the coating. Thus, its deflecting strength does not decrease easily.

Kyocera Precision Tools, Inc.,102 Industrial Park Road, Hendersonville, NC 28792, 800-823-7284,[email protected], kyoceraprecisiontools.com                                                                 

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