DTS inserts are tailored to the DTM face-milling system and achieve high levels of efficiency and cost-effectiveness in conjunction with pre-machining inserts. Either polycrystalline diamond (PCD) or chemical vapour deposition diamond (CVD-D) is used for pre-machining, depending on the material being processed. All tools for mirror-finish machining are generally designed with single cutting edges. The remaining insert seats contain roughing or balancing inserts.

The MCD-tipped cutting edge is set to an axial projection of 0.02 mm. Due to the structural design, the PCD-tipped inserts always pre-cut radially. This means it is virtually impossible for the MCD insert to be overloaded or damaged.

The insert seats of the DTM milling body can be adjusted in the axial direction via an adjusting screw. Every ten-degree rotation moves the insert seat by 0.01 mm. This means that the axial run-out of the individual cutting edges can be adjusted with micrometre precision.

The internal coolant supply ensures targeted cooling of the contact zone and efficient chip removal. The low mass of the aluminium body protects the spindle and reduces energy consumption compared with steel bodies. Horn offers a fine balancing option for the body to achieve high cutting speeds of up to 5,000 m/min and ensure that the tool runs quietly.

The range of applications for mirror-finish milling is huge. In the tool and mould making industry in particular the method saves polishing while also increasing the quality of the surface and its flatness. It is therefore used in applications where the surface of the mould has a direct influence on the parts being produced. This includes clear, transparent plastic items or valve plate sealing surfaces, for example. MCD-tipped ballnose end-mills are used to produce PET blow moulds and chocolate moulds.

In addition to mirror-finish milling, Horn's tool portfolio also includes solutions for mirror-finish turning with MCD tools.