Dmg Lasertec 65 3d Hybrid

Dmg Lasertec 65 3d Hybrid 6,2/10 6778 reviews

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LASERTEC 65 3D hybrid - Machines for ADDITIVE MANUFACTURING by powder nozzle and in powder bed by DMG MORI. LASERTEC 65 3D hybridは、5軸マシニングセンタにアディティブ.

Nov 26, 2018  LASERTEC 125 3D hybrid - Additive Manufacturing by DMG MORI - Duration: 2:46. DMG MORI Recommended for you.

Lasertec 125 3d Hybrid

High flexibility of manufacturing processes by combining welding and milling on one machine for additive manufacture and repair

  • The laser deposition head is handled by a fully automatic shuttle without manual intervention
  • 5 axis material deposition by coaxial nozzle for homogeneous powder distribution, independent of direction of laser deposition welding
  • Full 5-axis milling capability based on the monoBLOCK machine

AM Assistant for the best process reliability and comprehensive traceability

  • Integrated thermal imaging camera for observation of the whole working area, adapive process control and constant monitoring of the working distance
  • Powder feed rate sensor as well as automatic powder calibration.
  • AM Evaluator for visualisation of the relevant process data (e. g. meltpool size, powder mass flow) as a digital 3D-model as well as in the chronological sequence

Siemens NX: Complete Hybrid CAD / CAM – Module for additive and subtractive programming

  • One software package for the complete process chain (design, additive process, substractive machining, finishing)
  • Exclusive LASERTEC build-up strategies - fully integrated in the CAD / CAM software incl. 3D-simulation of machine movements for collision prevention
  • Change between additive and machining programming strategies all within one programming environment.

Additive Manufacturing: Complete process solutions in finished part quality from one supplier

Dmg Lasertec 65 3d Hybrid Price

Laser deposition welding with powder nozzle is well known for its high build rate. Therefore the LASERTEC 65 3D hybrid and LASERTEC 4300 3D hybrid are well suited for machining of high volume 3D parts. Further, its very easy to build on existing parts and to combine different materials. The quick change between laser and machining operations allows for the direct machining of segments that can no longer be reached on the finished parts. New parts are possible that are otherwise not possible.