Abstract
This paper deals with the cutting mechanism of cemented carbide by using a diamond coated carbide end mill. Geometry of the chips, tool wear behavior, and machined groove integrity were investigated experimentally. R3 ball end mill was applied under supplying air blow. As a results, saw-tooth type chips were generated even in the cemented carbide cutting. The diamond coated tool was fractured when the groove length was 80 to 100 mm in the high feed rate (f=30 μm/tooth). The width of machined groove decreased with the flaking of the coating film on the bottom flank face.
