Abstract
Polycrystalline diamond (PCD) tools have gained increasing application in woodworking industry for the phenomenal tool life and cutting finish compared with carbide tools. In the paper, machining experiments with PCD tools were conducted to mill laminated flooring with Al2O3 overlay. Four kinds of PCD products with different original diamond grain sizes were used to fabricate the cutters. Wear volume was measured by optical microscopy and wear morphology was examined by SEM and optical microscopy. The experimental results show that the wear mechanisms of PCD tools, in the machining process, involve inter-granular wear and partial cleavage fracture. The microcracks in PCD tools are a key reason for the wear of tools. By comparing the flank wear, the experiments reveal that PCD tools with middle original diamond grain size have long tool life. The influences of original diamond grain size on cutting edge and wear properties have also been discussed in detail.
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