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Themed image LASERTEC PrecisionTool
Themed image
Themed image CELOS by DMG MORI

Laser diamond tool machining with the LASERTEC PrecisionTool series

Laser machining of precision tools

Highlights
  • Utilizing laser technology to enter into a new dimension of cutting edge machining in hard-brittle materials
  • Perfect cutting edges, relief angles and chip breakers
  • Contact-free machining without tool wear
  • Laser machining of PCD, CVD-D, CBN and tungsten carbide
Technical data
Max. X-axis travel
19.7 in.
Max. Y-axis travel
19.7 in.
Max. Z-axis travel
27.6 in.
Control & software
  • CELOS: The app based control and operating system
  • Exclusive DMG MORI technology cycles available
  • ERGOline 21.5" Multi Touch Panel with CELOS and SIEMENS SINUMERIK 840 D sl

Max. X-axis travel
Max. Y-axis travel
Max. Z-axis travel
Themed image LASERTEC 50 Shape
LASERTEC 50 PrecisionTool
19.7 in.
19.7 in.
27.6 in.

Economical production of cutting edges and chip breakers in PCD

Applications for precision tools made from Polycrystalline Diamond (PCD) and Cubic Boron Nitride (CBN)  include machining nonferrous metal alloys, hard metals, Carbon Fibers (CF), and ceramics. The tools are notable for their extreme hardness, which extends tool life by up to 40 percent. However, grinding them conventionally or to manufacturing them through erosion is highly labor-intensive. The LASERTEC PrecisionTool series from DMG MORI is the perfect alternative for the machining of cutting edges and chip-breaker geometries of reversible cutting inserts and rotary tools. Laser processing allows diamond tools to be machined economically, with a focus on quality.

This means that with laser technology, DMG MORI has been able to achieve a new level of quality in the processing of PCD tools. One of the impressive results of this is significantly lower cutting-edge chipping compared to ground or eroded tools. This noncontact and reliable method is also resource-efficient and sustainable because it does not wear out grinding tools or require erosion wires.

Easy transition from erosion to laser machining

DMG MORI’s machine portfolio for laser machining PCD tools includes the LASERTEC 20 PrecisionTool with travel distances of 200 × 400 × 280 mm and the LASERTEC 50 PrecisionTool. Here, the travel distances are 500 × 500 × 700 mm, which enables machining of large tools with diameters up to 360 mm and lengths up to 420 mm. In addition, the smaller model in its PreCut variant is suitable for the five-axis separation of cutting inserts from blanks—a process ten times faster compared to wire cutting. The LASERSOFT software deploys the industry-standard (GTR) as a programming solution. This allows for the import of existing EDM projects, with a user-friendly interface that simplifies the transition from EDM to laser machining.

DMG MORI automates the processing of PCD tools, thus ensuring maximum productivity with minimal space requirements. With both LASERTEC PrecisionTool machines, space-saving pallet handling systems are available: the PH 10|100 for the LASERTEC 20 PrecisionTool and the PH 50 for the larger model.

Laser diamond-tool machining: a quick summary

What are PCD and CNB tools?

What are PCD and CNB tools?

Due to their extreme hardness, tools made from Polycrystalline Diamond (PCD) or Cubic Boron Nitride (CBN) are perfectly suited to precision machining hard metals, nonferrous metal alloys, Carbon Fibers, and ceramics.

How are PCD tools manufactured?

How are PCD tools manufactured?

Since conventional machining of PCD tools through grinding or erosion is highly labor-intensive, laser machining is an optimal solution for producing cutting edges, chip-breaker geometries of reversible cutting inserts, and tools.

What are the advantages of PCD tools?

What are the advantages of PCD tools?

Due to their hardness, PCD tools are highly durable and can process challenging materials including nonferrous metal alloys, hard metals, Carbon Fibers (CF), and ceramics with extended tool life.