Mechanism of Gap Bridgeability in Lap-Fillet Laser-Arc Hybrid Welding
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Gao, M., Zeng, X.Y., Hu, Q.W., Yan, J.: Weld microstructure and shape of laser–arc hybrid welding. Sci. Technol. Weld. Joining 13(2), 106–113 (2008)
Meng, W., Li, Z., Lu, F., Wu, Y., Chen, J., Katayama, S.: Porosity formation mechanism and its prevention in laser lap welding for T-joints. J. Mater. Process. Technol. 214(8), 1658–1664 (2014)
Fellman, A.: The effects of some variables on CO2 laser-MAG hybrid welding. Lappeenranta University of Technology (2008)
Allen, C.M., Hilton, P.A., Blackburn, J.: Increasing the tolerance to fit-up gap using hybrid laser-arc welding and adaptive control of welding parameters. In Proceedings of the 37th International MATADOR Conference, Manchester, England (2012)
Lamas, J., Frostevarg, J., Kaplan, A.F.: Gap bridging for two modes of laser-arc hybrid welding. J. Mater. Process. Technol. 224, 73–79 (2015)
Wang, J.B., Nishimura, H., Fujii, K., Katayama, S., Mizutani, M.: Study of improvement of gap tolerance in laser MIG arc hybrid welding of aluminium alloy. Weld. Int. 23(10), 723–733 (2009)
Üstündağ, Ö., Fritzsche, A., Avilov, V., Gumenyuk, A., Rethmeier, M.: Study of gap and misalignment tolerances at hybrid laser-arc welding of thick-walled steel with electromagnetic weld pool support system. Procedia Cirp 74, 757–760 (2018)
Yamamoto, M., Shinozaki, K., Kadoi, K., Fujita, D., Inoue, T., Fukahori, M., Kitahara, Y.: Development of hot-wire laser welding method for lap joint of steel sheet with wide gap. Q. J. Jpn. Weld. Soc. 29(3), 58s–61s (2011)
Ishak, M., Yamasaki, K., Maekawa, K.: Lap fillet welding of thin sheet AZ31 magnesium alloy with pulsed Nd: YAG laser. J. Solid Mech. Mater. Eng. 3(9), 1045–1056 (2009)
Alshaer, A.W., Li, L., Mistry, A.: Understanding the effect of heat input and sheet gap on porosity formation in fillet edge and flange couch laser welding of AC-170PX aluminum alloy for automotive component manufacture. J. Manuf. Sci. Eng. 137(2) (2015)
Möller, F., Kügler, H., Kötschau, S., Geier, A., Goecke, S.F.: Gap bridging ability in laser GMA hybrid welding of thin 22MnB5 sheets. Phys. Procedia 56, 620–629 (2014)
Gao, X.S., Wu, C.S., Goecke, S.F., Kuegler, H.: Effects of process parameters on weld bead defects in oscillating laser-GMA hybrid welding of lap joints. Int. J. Adv. Manuf. Technol. 93(5–8), 1877–1892 (2017)
Hanji, T., Tateishi, K., Shimizu, M., Uchida, D., Asano, K., Kimura, R.: Fatigue strength of cruciform joints and longitudinal joints with laser-arc hybrid welding. Weld. World 63(5), 1379–1390 (2019)
Kochar, P., Sharma, A., Suga, T., Tanaka, M.: Prediction and control of asymmetric bead shape in laser-arc hybrid fillet-lap joints in sheet metal welds. Lasers Manuf. Mater. Process. 6(1), 67–84 (2019)
Shen, F., Zhao, B., Li, L., Chua, C.K., Zhou, K.: Fatigue damage evolution and lifetime prediction of welded joints with the consideration of residual stresses and porosity. Int. J. Fatigue 103, 272–279 (2017)
Mastanaiah, P., Sharma, A., Reddy, G.M.: Process parameters-weld bead geometry interactions and their influence on mechanical properties: A case of dissimilar aluminium alloy electron beam welds. Def. Technol. 14(2), 137–150 (2018)
Liu, S., Mi, G., Yan, F., Wang, C., Jiang, P.: Correlation of high power laser welding parameters with real weld geometry and microstructure. Opt. Laser Technol. 94, 59–67 (2017)
Sharma, A., Verma, D.K., Arora, N.: A scheme of comprehensive assessment of weld bead geometry. Int. J. Adv. Manuf. Technol. 82(9–12), 1507–1515 (2016)
Choudhury, S., Sharma, A., Mohanty, U.K., Kasai, R., Komura, M., Tanaka, M., Suga, T.: Mathematical model of complex weld penetration profile: A case of square AC waveform arc welding. J. Manuf. Process. 30, 483–491 (2017)
Mohanty, U.K., Sharma, A., Nakatani, M., Kitagawa, A., Tanaka, M., Suga, T.: A semi-analytical nonlinear regression approach for weld profile prediction: a case of alternating current square waveform submerged arc welding of heat resistant steel. J. Manuf. Sci. Eng. 140(11) (2018)