3 Easy adjustable runout Easily install inserts and adjust runout Easy insert mounting Guide pin allows for easier positioning Easily adjust runout Adjustable from both the front and outer periphery Mount the insert onto the guide pin Unique design for easily adjusting from the front Setting time (min) Worker 1 Worker 2 Worker 3 Worker 4 Worker 5 Worker 1 Worker 2 Worker 3 Worker 4 Worker 5 Worker 1 Worker 2 Worker 3 Worker 4 Worker 5 Runout setting time comparison (Internal evaluation) Operation time of 5 workers comparison Cutting diameter: ø80, no. of inserts: 10 50 45 40 35 30 25 20 15 10 5 0 MFAH Competitor A Competitor B The MFAH can drastically shorten the setting time 4 Large tooling lineup Steel body and light-weight hybrid body with internal coolant available 3 different edge designs offer a variety of machining applications Steel alloy Coolant hole Insert (edge design) PCD (KPD001) 3 different edge designs offer a variety of machining applications Steel body ø 50 mm - ø 125 mm Aluminum alloy Light-weight hybrid body ø 80 mm - ø 315 mm Double-edge C ENET0905PAER-G Minimizes burrs and chipping * First recommendation ENET0905PAER-C Low cutting force * Low rigidity workpiece etc. R ENET0905PAER-R Tough edge * High interruption workpiece etc. 5 Safety enhancements during high-speed revolution Scattering prevention 1 Prevention of scattering by wedge-shape design New feature holds insert firmly in place and reduces chattering 2 Prevention of scattering with guide pin Guide pins improve safety at high speeds Clamp surface Centrifugal force Holding surface Prevention of scattering by wedge-shape design 2 Prevention of scattering with guide pin
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