LASER SURFACE HARDENING OF AISI 01 TOOL STEEL AND ITS MICROSTRUCTURE

The effects of laser surface hardening on AISI 01 tool steel samples were studied by changing the laser operating parameter combinations and the initial steel microstructure. Both melted and solid state transformed regions were produced, and then studied using optical microscopy, analytical electron microscopy, X-ray diffraction, and measurements of microhardness to investigate the hardening mechanisms and the development of compressive residual stresses. The results indicate that hardened case depths up to 0.6 mm can be obtained using a laser beam operated at a power of 500 W and a scan rate of 2.1 mm s-1, but that different amounts of retained austenite and undissolved carbides are observed for different beam powers. Quenched and tempered AISI 01 steel samples, with initial hardness values in the range 30-40 HRC, are better suited for laser surface hardening compared with the samples with initial hardness of 48-50 HRC, because the formation of an overtempered region adjacent to the hardened zone can be avoided.