摘要
Advanced characterization techniques are utilized to investigate the effect of laser surface treatment on microstructural evolution of pure titanium(Ti).The results show that there are three distinctly different types of microstructure from surface to substrate in Ti samples,including phase transformation and solidification microstructure in zone I(melting zone);insufficient recrystallization grains with residual a martensitic plates in zone II(heat-affected zone,HAZ);fully recrystallization microstructure in zone III(base metal,BM).The hardness evolution profiles under different laser treatment parameters are similar.The highest hardness in MZ is ascribed to α plate,while the lowest hardness value in HAZ is due to the insufficiently recrystallized grains.The metallurgical process on the laser-modified Ti samples is systematically discussed in this work.
Advanced characterization techniques are utilized to investigate the effect of laser surface treatment on microstructural evolution of pure titanium(Ti).The results show that there are three distinctly different types of microstructure from surface to substrate in Ti samples,including phase transformation and solidification microstructure in zone I(melting zone);insufficient recrystallization grains with residual a martensitic plates in zone II(heat-affected zone,HAZ);fully recrystallization microstructure in zone III(base metal,BM).The hardness evolution profiles under different laser treatment parameters are similar.The highest hardness in MZ is ascribed to α plate,while the lowest hardness value in HAZ is due to the insufficiently recrystallized grains.The metallurgical process on the laser-modified Ti samples is systematically discussed in this work.
基金
supported by the National Natural Science Foundation of China (Nos. 51401039 and 51501026)
the Natural Science Foundation of Chongqing (No. CSTC2014jcyj A50017)
the Scientific and Technological Research Program of Chongqing Municipal Education Commission (Nos. KJ1500923 and KJ1709204)
