Authors:
Xudong Zhang
Eiji Ashida
Hitachi, Ltd., Materials Research Lab., Hitachi, Ibaraki, 319–1292 Japan
Shoh Tarasawa
Yusuke Anma
Masaya Okada
Hitachi-GE Nuclear Energy, Ltd., Hitachi, Ibaraki, 319–1221 Japan
Seiji Katayama
Masami Mizutani
Joining and Welding Research Institute, Osaka University, Osaka, 567–0047 Japan
Thick-section stainless steels are widely used in the components and structures for nuclear power plants. Laser welding is being considered as a high-efficiency method instead of arc welding for some components, so as to improve the production efficiency and reduce the residual stresses of the heat-affected zone. In this paper, multipasses narrow-gap welding of 50 mm thick Type 316L plates with an 8 kW disk laser was first investigated. The effect of welding conditions on the weld bead geometry and welding defects was studied. It shows that lack of fusion could be prevented by optimizing the relationship between laser power intensity and the deposited metal volume. Butt joint of 50 mm thick plates with narrow gap could be performed with eight-layers welding at laser power of 6 kW and welding speed of 0.4 m/min. In order to reduce the weld passes further, gas jet assisted laser welding was tried to weld thick Type 316L plates with a 10 kW fiber laser. The result shows that butt-joint welding of 40 mm plates without filler wire could be carried out at 0.3 m/min welding speed with no porosity or other welding defects. As for 50 mm thick plate, a good weld bead could be obtained with bead-on-plate welding from both sides at 0.2 m/min welding speed.