[1] Steen W M. Arc augmented laser processing of materials[J]. Journal of Applied Physics, 1980, 51(11): 5636-5641.

[2] 崔旭明, 李刘合, 张彦华. 激光-电弧复合热源焊接[J]. 焊接技术, 2003, 32(2): 19-21.

    Cui X M, Li L H, Zhang Y H. Welding with laser-arc compound heat source[J]. Welding Technology, 2003, 32(2): 19-21.

[3] PintoH, PyzallaA, HacklH, et al. A comparative study of microstructure and residual stresses ofCMT-, MIG- and laser-hybrid welds[J]. Materials Science Forum, 2006, 524/525: 627- 632.

[4] Pickin C G, Young K. Evaluation of cold metal transfer (CMT) process for welding aluminium alloy[J]. Science & Technology of Welding & Joining, 2006, 11(5): 583-585.

[5] 朱宇虹, 耿志卿. 薄板焊接的极限: CMT冷金属过渡焊接技术[J]. 电焊机, 2011, 41(4): 69-71.

    Zhu Y H, Geng Z Q. Limitation of sheet metal welding: CMT cool metal transition technique[J]. Electric Welding Machine, 2011, 41(4): 69-71.

[6] 李敏, 张旺, 华学明, 等. 光纤激光与GMAW-P复合焊接等离子体及熔滴过渡动态特征研究[J]. 中国激光, 2017, 44(4): 0402008.

    Li M, Zhang W, Hua X M, et al. Investigation of plasma and metal transfer dynamic behavior during fiber laser GMAW-P hybrid welding[J]. Chinese Journal of Lasers, 2017, 44(4): 0402008.

[7] 胡连海, 黄坚, 吴毅雄, 等. 激光-双MIG电弧复合焊耦合机制及熔滴过渡研究[J]. 中国激光, 2016, 43(6): 0602005.

    Hu L H, Huang J, Wu Y X, et al. Study on coupling mechanism and metal transfer in laser double-wire MIG arc hybrid welding[J]. Chinese Journal of Lasers, 2016, 43(6): 0602005.

[8] Lamas J, Frostevarg J. Kaplan A F H. Gap bridging for two modes of laser arc hybrid welding[J]. Journal of Materials Processing Technology, 2015, 224: 73-79.

[9] Frostevarg J. Comparison of three different arc modes for laser-arc hybrid welding steel[J]. Journal of Laser Applications, 2016, 28(2): 022407.

[10] 雷振, 林尚扬, 王旭友, 等. 激光-数字化精确控制短路过渡电弧复合热源焊接技术: 一种可取代TIG填丝焊的高效焊接新方法[J]. 焊接, 2009( 5): 23- 26.

    LeiZ, Lin SY, Wang XY, et al. A welding technology of laser-digital controlled short circuiting transfer arc hybrid welding: A new high-efficient welding technology replaced TIG welding filler wire[J]. Welding & Joining, 2009( 5): 23- 26.

[11] 雷振, 王旭友, 王威, 等. 基于纯氩保护气体的304不锈钢激光-CMT电弧复合热源焊接试验研究[J]. 焊接, 2010( 8): 18- 22.

    LeiZ, Wang XY, WangW, et al. Laser-CMT hybrid welding with argon as shielding gas for 304 stainless steel[J]. Welding & Joining, 2010( 8): 18- 22.

[12] Gao M, Chen C, Gu Y Z, et al. Microstructure and tensile behavior of laser arc hybrid welded dissimilar Al and Ti alloys[J]. Materials, 2014, 7(3): 1590-1602.

[13] Zhang C, Li G, Gao M, et al. Microstructure and process characterization of laser-cold metal transfer hybrid welding of AA6061 aluminum alloy[J]. International Journal of Advanced Manufacturing Technology, 2013, 68(5/6/7/8): 1253-1260.

[14] 国莉. 激光焊接典型航空材料金属蒸汽/等离子体特征[D]. 武汉: 武汉理工大学, 2008.

    GuoL. Characteristics of the vapor/plasmas induced during laser welding of typical aeronautical materials[D]. Wuhan: Wuhan University of Technology, 2008.

[15] Singh N, Razafinimanana M, Gleizes A. The effect of pressure on a plasma plume: Temperature and electron density measurements[J]. Journal of Physics D: Applied Physics, 1998, 31(20): 2921-2928.