Engineering Materials and Their Applications
Tool Wear and Wear Mechanism of Carbide Tool in Cutting Al–Si Alloy Diecastings
2021 Volume 62 Issue 4 Pages 526-531
Details
2021 Volume 62 Issue 4 Pages 526-531
Tool wear and wear mechanism of carbide cutting tool in turning Al–Si alloy diecastings were investigated. Decreasing amount of coarse primary silicon was effective for reducing cutting resistance and cutting tool wear. New hyper-eutectic Al–Si system alloy which doesn’t contain coarser silicon particles provided good turning machinability equivalent to conventional eutectic Al–Si system alloy. In case of increasing feed rate from 0.05 mm/rev to 0.10 mm/rev, cutting tool wear of conventional hyper-eutectic Al–Si system alloy increased. On the other hand, that of eutectic Al–Si system alloy decreased, and that of new hyper-eutectic Al–Si system alloy didn’t changed. Built-up edge and aluminum deposit on the flank wear land were observed in all aluminum alloys.
This Paper was Originally Published in Japanese in J. JILM 69 (2019) 174–149.
