Cutter Cassettes

Cutter cassettes are elements that contain the cutting edges and are bolted on to the saw blades. 

Patented Saw Blade Technology for Anode Slotting

Cutter Cassettes

Cutter cassettes are elements that contain the cutting edges and are bolted on to the saw blades. The cutter cassettes comprises of a cutting edge made of polycrystalline diamond compact that is attached to the steel base by brazing.  The cutting edge angle with respect to the saw blade periphery has been optimized for slotting. The configuration of alternate cutter cassette placement on each side also means that the slot that is processed may be wider than if the cutting edges were in the same plane. With this staggered arrangement, cutting of material and transportation of chips is also more efficient. 

The width of the cutters and the offset arrangement determines the width of the slot. Lyng offers cutter cassettes in slot width ranging from 8 mm to 12 mm. Lyng also offers cutter cassettes with different tip profiles such as Standard, High Profile, Protected, and Rounded Tip.

The cutter cassette nomenclature is typically XABY, where:

    • X refers to the tip profile, S for Standard, R for Round, H for High Profile, 
    • AB refers to the slot width, in mm
    • Y refers to L or R, left or right cassettes

For example, S08L refers to the standard cutter cassette with 8 mm width for the left side. 

Contact Lyng Drilling to discuss specific tip profiles and widths to match with your saw blade requirements. 

Cutter Cassettes for Saw Blade

Cutter Cassettes Rounded

Lyng Drilling uses advanced manufacturing technologies at its ISO-9001 certified facility in Norway to provide cutter cassettes of the highest quality. Click below to see the cassettes being produced in Lyng Drilling’s state of the art automated machining centres.

Machining of Cutter Cassettes

Brazing of Cutter Cassettes

More efficient cutter cassettes

The configuration of alternate cutter cassette placement on each side also means that the slot that is processed may be wider than if the cutting edges were in the same plane. With this staggered arrangement, cutting of material and transportation of chips is also more efficient.