MODIG AeroMill – Industries maximum chip removal: No one else comes close to approaching the affordability of AeroMill and no one beats its performance. This horizontal 5-axis machining centre handles your aluminium structural parts with a massive chip removal rate of up to 850 cubic inches per minute!
Specification X Axis traverse 510mm Y Axis traverse 510mm Z Axis traverse 510mm Table size 700 x 520mm Spindle speeds 60 – 6000rpm Spindle motor 7.5kW Spindle taper BT 40 Toolchanger capacity 21 tools Machine equipped with Fanuc 18iM CNC Control System 4th Axis unit Coolant system Lighting Enclosed guarding
Single Spindle High-Speed Gantry – Roughing and Finishing in Aluminium or Titanium
For the first time ever it is possible to operate one machine for high speed roughing and optimal finishing.
RigiMill, long bed machining – two different machines on one bed, configured with the customised gantries you require for milling aluminium or titanium. Our footprint occupies one-third less space than other gantries. Cycle time is reduced 30-50%. Just think what that does to optimise productivity and reduce tooling costs. Per minute chip removal rates up to 55 cubic inches in titanium and 970 cubic inches in aluminium make this machine a world leader.
MCM Tank G 5AX TH MT 1600 5 Axis Horizontal Machining Centre. Unparalleled performance on all types of materials. High accuracy.
MCM Tank G Series 5AX TH MT 2000 5 Axis Horizontal Machining Centre. The X axis guideways assembled on two different levels create an inclined angle that greatly increases the ridigity of the column head assembly.
MCM Tank G Series 5AX TH MT 2600 5 Axis Horizontal Machining Centre. Excellent chip removal capabilities. Perfect homogeneity and accuracy throughout the entire machining volumn.
The largest TANK.G model with 3000 x 2500 x 2500mm travels: the MCM Tank.G 5AX_TH_3000, provides a pallet size of 1250 x 1600mm with a 8000kg load per pallet. Maximum fixture dimensions of 3000 x 2400mm.
The MCM Clock 800 has been designed to match flexibility, high dynamics, rigidity and accuracy.