Characterization of laser welds in Al–10 wt.%Si coated ferritic stainless steel

409L stainless steel hot-dipped with Al–10 wt.%Si was welded using CO 2 laser and the microstructure and hardness of the weld were investigated. When the specimen was welded with laser power of 5 kW and welding speed of 5 m/min, full-penetrated sound weld was obtained. With that specimen, the relati...

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Published inMaterials in engineering Vol. 32; no. 2; pp. 917 - 925
Main Authors Kong, Jong Pan, Park, Tae Jun, Kim, Jeong Kil, Uhm, Sang Ho, Woo, In Su, Lee, Jong Sub, Park, Bong Gyu, Kang, Chung Yun
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2011
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Summary:409L stainless steel hot-dipped with Al–10 wt.%Si was welded using CO 2 laser and the microstructure and hardness of the weld were investigated. When the specimen was welded with laser power of 5 kW and welding speed of 5 m/min, full-penetrated sound weld was obtained. With that specimen, the relationship between the microstructure and hardness of the weld was examined. The hardness of the weld was the highest in the fusion zone (FZ) and decreased to the base metal (BM) via heat affected zone (HAZ). The hardness of the HAZ near bond line was also higher than that near the base metal. The maximum hardness in the fusion zone could be explained by the existence of the precipitates, that is, TiN, Ti(C,N), Al 2O 3 and Al 2O 3 + TiN mixed compounds with the size of 500 nm, and solution strengthening due to the elements Al and Si dissolved from the coating layer to the fusion zone. There were subgrains within the HAZ and more in the area near the bond line. In addition, fine TiC particles with the size under 50 nm was precipitated in the sub-grain boundaries. The formation of sub-grain boundaries and the particles precipitated in the boundaries might contributed to the high hardness in the HAZ.
ISSN:0261-3069
DOI:10.1016/j.matdes.2010.08.026