As a primary material of the thorium molten salt reactor(TMSR) that is a suitable candidate reactor of the Generation IV nuclear reactors, GH3535 superalloy was successfully welded. The effect of laser beam welding...As a primary material of the thorium molten salt reactor(TMSR) that is a suitable candidate reactor of the Generation IV nuclear reactors, GH3535 superalloy was successfully welded. The effect of laser beam welding(LBW) on microstructure evolution of fusion zone(FZ) and heat affected zone(HAZ), such as element segregation, precipitate behavior and grain evolution, was investigated. The microhardness and tensile properties were tested and discussed. The results of microstructure evolution showed that a number of fine M6C-y eutectic phases precipitated at solidification grain boundaries and interdendritic region in FZ. Compared to base metal zone(BMZ), the grain size of HAZ has no obvious change. While a few of M6C-y eutectic phases were observed in partially melted zone(PMZ) of HAZ. The results of microhardness indicated that the hardness of FZ was higher than that of HAZ and BMZ. The results of tensile test showed that the ultimate tensile strength of joints at room temperature, 650 and 700?C were98%, 97% and 99% of that of BM, respectively. All the tensile specimens of joints failed in BMZ rather than in PMZ where M6 C carbides had been transformed into M6C-y eutectic phases.展开更多
基金supported by National Key Research and Development Program of China (Grant No. 2016YFB0700404)the National Natural Science Foundation of China (Grant Nos. 51371188, 51671122, 51671154, 51501216, 51601213)the Strategic Priority Research Program of the Chinese Academy of Sciences (Grant No. XDA02004210)
文摘As a primary material of the thorium molten salt reactor(TMSR) that is a suitable candidate reactor of the Generation IV nuclear reactors, GH3535 superalloy was successfully welded. The effect of laser beam welding(LBW) on microstructure evolution of fusion zone(FZ) and heat affected zone(HAZ), such as element segregation, precipitate behavior and grain evolution, was investigated. The microhardness and tensile properties were tested and discussed. The results of microstructure evolution showed that a number of fine M6C-y eutectic phases precipitated at solidification grain boundaries and interdendritic region in FZ. Compared to base metal zone(BMZ), the grain size of HAZ has no obvious change. While a few of M6C-y eutectic phases were observed in partially melted zone(PMZ) of HAZ. The results of microhardness indicated that the hardness of FZ was higher than that of HAZ and BMZ. The results of tensile test showed that the ultimate tensile strength of joints at room temperature, 650 and 700?C were98%, 97% and 99% of that of BM, respectively. All the tensile specimens of joints failed in BMZ rather than in PMZ where M6 C carbides had been transformed into M6C-y eutectic phases.
