3 flutes Ball End Mill for High efficient deep cutting Epoch Mega Feed Ball Evolution

Employs a strongly helical ball edge geometry to achieve reduced cutting force and improved chip removal! Features of EMB(P)E-ATH Newly developed high helix variable pitch ball edge geometry Improved heat resistance and wear resistance (ATH Coating) Broad lineup (Total of 117 items) Capable of high-accuracy machining (Improved R accuracy) Capable of high-efficient side milling cutting (high helix peripheral cutting edge) Newly developed ball edge shape greatly improves cutting performance. Cutting force is reduced, vibrations are suppressed, and chip removal is improved so tool damage is reduced...

Vibration suppression by variable pitch of end cutting effect Vibration occured α Epoch® Mega Feed Ball Evolution ＜Cutting conditions＞ Work material：DAC-MAGIC （45HRC） 　Tool dia.： φ6×3 flutes n =4,000min-1 (vc=75m/min)　v f =1,150㎜/min(f z=0.096㎜/t） ap=0.3㎜　ae=1㎜　Water base coolant　 OH=30mm Makino V33(HSK-F63)　Bottom slotting β By variable pitch geometry ・Can reduce chattering vibration when deep cutting or corner part processing. Especially effective by speed processing, and can realize highly efficient processing. Improved heat-resistant coating Features and characteristics ●Hardness and oxidation...

Performance and positioning : Stocked Items.

Back taper on peripheral edge:3^5°

Back taper on peripheral edge:3^5° ■ Detail of neck shape Neck shape A Compound neck shape Neck shape D Taper 20° : Stocked Items. Under Neck Length

Work material [Note] ® Use the appropriate coolant for the work material and machining shape. © Use as highly rigid and accurate machine as possible. © These conditions are for general guidance; in actual machining conditions adjust the parameters according to your actual machine and work-piece conditions. @ If the rpm available is lower than that recommended please reduce the feed rate to the same ratio.

Straight type Work material [Note] ® Use the appropriate coolant for the work material and machining shape. © Use as highly rigid and accurate machine as possible. © These conditions are for general guidance; in actual machining conditions adjust the parameters according to your actual machine and work-piece conditions. © If the rpm available is lower than that recommended please reduce the feed rate to the same ratio.

<Side cutting) Work material ^Set the hole diameter for helical boring to between 1.6 and 2.0 times the tool diameter. ^Set the maximum depth for helical boring to the tool diameter or smaller (< 1D).

Work material

[Note] ® Use the appropriate coolant for the work material and machining shape. © Use as highly rigid and accurate machine as possible. © These conditions are for general guidance; in actual machining conditions adjust the parameters according to your actual machine and work-piece conditions. @ If the rpm available is lower than that recommended please reduce the feed rate to the same ratio.

Recommended Cutting Conditions EMBPE-ATH Pencil type 〈Finishing〉 ※The condition of “ap” and “ae” assumes finishing process. In actual machining conditions please adjust 　 “ap” and “ae”. Please set up the condition of “ap” and “ae” for roughing process, in case of processing over L/D=15. Carbon steels Alloy steels (180～250HB） S50C, S55C Work material Ball Tool Under radius dia. neck Revolution Feed rate Length n vf R 2 R Dc min-1 mm/min (mm) Revolution Feed rate n vf min-1 mm/min Pre-hardened steels Hardened steels (40～50HRC） SKD61, CENA1, HPM-MAGIC, NAK80, DAC-MAGIC, DAC55, DH31 Revolution Feed...

※The condition of “ap” and “ae” assumes finishing process. In actual machining conditions please adjust 　 “ap” and “ae”. Please set up the condition of “ap” and “ae” for roughing process, in case of processing over L/D=15. Work material Carbon steels Alloy steels (180～250HB） S50C, S55C Ball Tool Under radius dia. neck Revolution Feed rate Length n vf R 2 R Dc min-1 mm/min (mm) Revolution Feed rate n vf min-1 mm/min Pre-hardened steels Hardened steels (40～50HRC） SKD61, CENA1, HPM-MAGIC, NAK80, DAC-MAGIC, DAC55, DH31 Revolution Feed rate n vf min-1 mm/min Revolution Feed rate n vf min-1 mm/min...

＜Model shape＞ Example of cutting high-toughness material [DH31, 45HRC] Tool：EMBE3060-ATH　φ6 (R3) n=4,000min-1 c=75m/min） v f =1,150mm/min z =0.097mm/t） p=0.36mm　ae=1mm　 （v （f 　a Water base coolant　　Machine：Vertical MC （HSK-F63） Over hang：30mm 　 （5D） Number of Pocket milling：1 pc.　　Process time：75min VB=0.05mm Small wear width Tool life is ended due to heavy chipping on 2 edges. Tool life is ended due to chipping early of use. (Continuous cutting is possible.) 45mm ＜Model shape＞ Cutting performance of steel grade EMBE-ATH 【S50C 220HB】 Normal wear VB=0.09mm Tool：EMBE3060-ATH φ6 (R3) n=11,700min-1...

Example of deep cutting (L/D=16) [DH31, 45HRC] Tool：EMBPE3060-100-09-ATH φ6 R3）×Under neck length 100mm ×Neck angle 0.9° （ n=1,500min-1 c =28m/min） v f =360mm/min z =0.08mm/t） p=0.21mm　ae=0.5mm （v （f 　a Water base coolant　　Machine：Vertical MC （HSK-F63） 　Over hang：105mm （17.5D） Number of Pocket milling：1 pc.　Process time：195min Under neck length : 100mm Neck angle : 0.9° Under neck length : 90mm Neck angle : 1° ＜Model shape＞ Chipping occured on rake face Example of maximum tool dia. φ1 [DH31, 45HRC] Tool：EMBE3010-S4-ATH φ1 （R0.5） 　 n=18,000min-1 c =57m/min） v f =900mm/min z =0.025mm/t） p=0.05mm　ae=0.16mm　...

The diagrams and table data are examples of test results, and are not guaranteed values. "Epoch" and “ ” are registered trademarks of Mitsubishi Hitachi Tool Engineering, Ltd. in Japan. Attentions on Safety 1. Cautions regarding handling (1) When removing the tool from its case (packaging), be careful that the tool does not pop out or is dropped. Be particularly careful regarding contact with the tool flutes. (2) When handling tools with sharp cutting flutes, be careful not to touch the cutting flutes directly with your bare hands. 2. Cautions regarding mounting (1) Before use, check the outside...