Sep 27, 2021


DMG Mori NTX1000 SZM


CNC Milling


  • DMG Mori Mill-Turn technology
  • Simultaneous 5-axis milling and turning
  • Full live-tool turning capabilities
  • In-machine travelling robot for chucking/unloading
  • 4’ barfeeder, 2.5” thru the spindle

More Specifications

  • 8” max chuck diameter
  • 5,000 RPM main spindle, 6,000 RPM second spindle
  • Built in Motor Turret with live tooling, 10,000 RPM
  • 20,000 RPM milling spindle with 240 degrees rotation
  • Capto C5 Spindle
  • 76 tool capacity in milling tool magazine
The DMG Mori NTX1000 SZM mill turn machine is a hybrid that combines simultaneous 5-axis milling and turning in one. While other machines perform a single function, mill/turn machines can accomplish multiple operations at the same time.
One advantage with this machine is its ability to machine more complex parts. The DMG Mori NTX1000 SZM is able to create more complex and intricate parts without needing to transfer the part from one machine to another. This opens a world of possibilities. Machining of complex parts is possible utilizing the direct drive motor (DDM) with a rotation range of 240°, a rotation speed of 100 rpm, and the X-axis travel of 17.9 in.

Another advantage is faster operations. Because a mill/turn can complete several operations at the same time, the total time needed to create each part is significantly reduced. In addition to machining the parts faster, mill/turns can also be set up more quickly than other machines. You will also see higher accuracy because parts can be machined with one setup. Mill/turn machining introduces less margin for error from parts being adjusted frequently or being setup multiple times. Since most mill/turn machines are newer, they offer more built-in automation than traditional machining equipment so there is automation of menial tasks. Tasks like loading material, probing, and removing parts are done automatically, freeing up the machinist’s time to do other more interesting and value-added activities.

Our NTX1000 equipment functions as a fast, powerful, and flexible machine that can complete complex operations faster and with greater accuracy than traditional machining technologies. High precision is created by thoroughly controlled thermal displacement by cooling oil circulation in the body. There is also a high-rigidity bed and linear motion guide to achieve high rigidity and a full range of optional equipment for automation, including in-machine traveling robots, workpiece unloaders and more.