Abstract
ITER correction coil (CC) cases have characteristics of small cross section, large dimensions, and complex structure. The cases are made of heavy thick (20 mm), high strength and high toughness austenitic stainless steel 316LN. The multi-pass laser welding with hot wire technology is used for the case closure welding, due to its low heat input and deformation. In order to evaluate the reliability of this welding technology, 20 mm welding samples with the same groove structure and welding depth as the cases were welded. High purity argon was used as the shielding gas to prevent oxidation because of the narrowness and depth of the weld. In this paper investigation of, microstructure characteristics and mechanical properties of welded joints using optimized welding parameters are presented. The results show that the base metal, fusion metal, and heat affected zone (HAZ) are all have fully austenitic microstructure, and that the grain size of fusion metal was finer than that of the base metal. The welding resulted in an increase of hardness in the fusion metal and HAZ. It was confirmed that the tensile strength of fusion metal was higher than that of base metal and the impact toughness value is higher than industry standard requirement. Thus, this welding process was determined to be reliable for manufacture of the ITER CC cases manufacture.
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Acknowledgments
The authors would like to acknowledge the ITER IO magnet division for their contribution to the definition of CC technical specification and development of task packages. We also thank Beijing University of Technology and SIASUN for their contributions on the equipment and welding technology of CC case.
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Fang, C., Song, Y., Wu, W. et al. The Laser Welding with Hot Wire of 316LN Thick Plate Applied on ITER Correction Coil Case. J Fusion Energ 33, 752–758 (2014). https://doi.org/10.1007/s10894-014-9745-y
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DOI: https://doi.org/10.1007/s10894-014-9745-y