[1] Gong X S, Han S C, Huang K F. Optimization on welding parameters of resistance spot welding process for B340LA[J]. Hot Working Technology, 43, 65-67, 71(2014).

[2] Li J, Zhang Y, Liu W et al. Prediction of penetration based on plasma plume and spectrum characteristics in laser welding[J]. Journal of Manufacturing Processes, 75, 593-604(2022).

[3] Li Y B, Li Y T, Lou M et al. Lightweighting of car body and its challenges to joining technologies[J]. Journal of Mechanical Engineering, 48, 44-54(2012).

[4] Li B P, Liu P, Zhao B Z et al. Study on formation and microstructural properties of TIG welded-joints for unequal-thickness B340LA/B1500HS dissimilar high-strength steel[J]. Electric Welding Machine, 44, 40-43(2014).

[5] Zhang L Z, Ren H, Jia C X et al. Spot welding technology of three typical high strength steels for automobile[J]. Hot Working Technology, 47, 172-176, 183(2018).

[6] Zhao Y C, Zhang P L, Gu J J. Research status on dual-beam laser welding[J]. Materials Review, 32, 345-349(2018).

[7] Chen C, Xiang Y Z, Gao M. Weld formation mechanism of fiber laser oscillating welding of dissimilar aluminum alloys[J]. Journal of Manufacturing Processes, 60, 180-187(2020).

[8] Jiang H L, Peng X Y, Ju H et al. Numerical simulation analysis of residual stress of laser powder filling welded joint[J]. Hot Working Technology, 51, 130-136(2022).

[9] Fang R C, Zhang J, Zheng H J et al. Narrow gap wobble laser with filling wire for welding of 35 steel and Q355B steel[J]. Chinese Journal of Lasers, 49, 1602014(2022).

[10] Ying J L, Li Z Y, Xiong X Y. Study on technology and properties of GH3030 superalloy by laser powder-filling welding[J]. Applied Laser, 41, 252-256(2021).

[11] Zhang Y, Liang Z C, Zhang Z H et al. Experimental research on variable power laser welding of the B340LA tailor rolled banks[J]. Journal of Hunan University (Natural Sciences), 46, 51-57(2019).

[12] Missori S, Sili A. Structural characterization of C-Mn steel laser beam welded joints with powder filler metal[J]. Welding Journal, 79, 317-323(2000).

[13] Braun R. Nd: YAG laser butt welding of AA6013 using silicon and magnesium containing filler powders[J]. Materials Science and Engineering: A, 426, 250-262(2006).

[14] Zhang S H, Chen K, Xiao R S et al. Influence of metal powder on high power CO2 laser welding of aluminum alloy[J]. Chinese Journal of Lasers, 32, 086004(2005).

[15] Zhang S H, Chen K, Xiao R S et al. High power CO2 laser powder welding of aluminum alloy[J]. Chinese Journal of Lasers, 33, 714-718(2006).

[16] Chen K, Yang W X, Xiao R S et al. Laser welding of some aluminum alloys with powder[J]. Applied Laser, 25, 222-226(2005).

[17] Zhang Y, Guo G L, Li F N et al. The interface control of butt joints in laser braze welding of aluminium-steel with coaxial powder feeding[J]. Journal of Materials Processing Technology, 246, 313-320(2017).

[18] Wang Y Y, Yang X N, Shi S Y et al. Laser welding 6061 aluminum alloy with laser cladding powder[J]. Journal of Laser Applications, 33, 022006(2021).

[19] Errico V, Campanelli S L, Angelastro A et al. On the feasibility of AISI 304 stainless steel laser welding with metal powder[J]. Journal of Manufacturing Processes, 56, 96-105(2020).