Characterizations of cutting tool flank wear-land contact

Metal deposition at the tool flank wear-land during machining is a common phenomenon, especially in machining aluminum alloys and annealed teels. The cause of metal deposit has not been studied and the characteristics of the wear-land and deposit contact are not completely known. In his study, a turning test was conducted using tungsten carbide (WC) tools with pre-generated wear-land to machine an aluminum alloy. The WC ools after machining were prepared by metallographic means to expose the cross-section of the interfacial zone. The metallographic samples were nalyzed using etching, optical microscopy, scanning electron microscopy, energy dispersive by X-ray analysis, and microhardness testing. The major findings include the following. The metal deposit is resistant to common etching solutions, shows high carbon and oxygen concentraions, and has a very high hardness, all indicating fine microstructures resulted from the thermomechanical, and possibly chemical, process. The C at the contact interface has a thin heat-affected zone showing reduced hardness and different microstructures. In addition, the flank wear-land ubsurface has a decreased tungsten concentration, but an increased carbon concentration. After removing the metal deposit, the flank wear-land onsistently shows two topographically distinct zones when the wear-land is large; one close to the cutting edge has a plastic-contact feature and he other has an elastic-contact feature. No significant difference in terms of microstructures and compositions was identified, except that the lastic-contact zone was softer than the elastic-contact zone. 2007 Elsevier B.V. All rights reserved.