Rare earth ceramic cutting tool and its cutting behavior when machining hardened steel and cast iron

Abstract

The addition of rare earth element yttrium played an important role in the improvement of both mechanical properties and wear resistance of Al 2O 3/(W,Ti)C ceramic cutting tool material. Mechanical properties especially the fracture toughness and flexural strength were obviously increased when a suitable amount of the yttrium were added. Wear resistance of the developed rare earth ceramic cutting tool material was higher than that of the corresponding materials without rare earth in the machining of the hardened 45# carbon steel and cast iron HT20-40. Wear modes of the Al 2O 3/(W,Ti)C rare earth ceramic tool materials were mainly flank wear and crater wear accompanied with slight notch wear when machining the hardened carbon steel. Wear mechanisms were major abrasive wear at low cutting speed and adhesive wear at high cutting speed. Wear modes were nearly the same except that the adhesion phenomenon in the crater area was intensified when machining cast iron. The flank wear area was relatively smooth with no obvious plowing phenomenon which was possibly concerned with the workpiece of low hardness and the adhesion phenomenon at high cutting temperature.