M. Geiger, H. K. Leitz, H. Koch, and A. Otto, A 3D transient model of keyhole and melt pool dynamics in laser beam welding applied to the joining of zinc coated sheets, Prod. Eng. Res. Dev, vol.3, pp.127-136, 2009.

S. Pang, L. Chen, J. Zhou, Y. Yin, and T. Chen, A three-dimensional sharp interface model for self-consistent keyhole and weld pool dynamics in deep penetration laser welding, J. Phys. D Appl. Phys, vol.44, p.25301, 2011.

I. W. Cho, J. S. Na, C. Thomy, and F. Vollertsen, Numerical simulation of molten pool dynamics in high power disk laser welding, J. Mater. Process. Technol, vol.212, pp.262-275, 2012.

J. C. Knight, Theoretical modeling of rapid surface vaporization with back pressure, AIAA J, vol.17, pp.519-523, 1979.

R. Fabbro, S. Slimani, F. Coste, and F. Briand, Analysis of the various melt pool hydrodynamic regimes observed during CW Nd-YAG penetration laser welding, ICALEO' 2007, 2007.

W. Tan, N. Bailey, and Y. Shin, Investigation of keyhole plume and molten pool based on a three-dimensional dynamic model with sharp interface formulation, J. Phys. D Appl. Phys, vol.46, p.55501, 2013.

M. Sajid, A contribution towards the numerical study of bubble dynamics in nucleate boiling at local scale using a conservative level set method, 2010.

A. Esmaeeli and G. Tryggvason, Computations of film boiling. Part I: Numerical method, Int. J. Heat Mass Trans, vol.47, pp.5451-5461, 2004.

H. Ki, S. P. Mohanty, and J. Mazumder, A numerical method for multiphase incompressible thermal flows with solid-liquid and liquid-vapor phase transformations, Numer. Heat Transfer, vol.48, pp.125-145, 2005.

K. Hirano, R. Fabbro, and M. Muller, Experimental determination of temperature threshold for melt surface deformation during laser interaction on iron at atmospheric pressure, J. Phys. D Appl. Phys, vol.44, p.435402, 2011.
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M. Courtois, M. Carin, P. Le-masson, S. Gaied, and M. Balabane, A new approach to compute multi-reflections of laser beam in a keyhole for heat transfer and fluid flow modeling in laser welding, J. Phys. D Appl. Phys, vol.46, p.505305, 2013.

P. Shcheglov, S. Uspenskiy, A. Gumenyuk, V. Petrovskiy, M. Rethmeier et al., Plume attenuation of laser radiation during high power fiber laser welding, Laser Phys. Lett, vol.8, pp.475-480, 2011.

J. Greses, P. Hilton, C. Barlow, and W. Steen, Plume attenuation under high power Nd:YAG laser welding, 2002.

T. Schenk, M. I. Richardson, M. Kraska, and S. Ohnimus, Modeling bulking distortion of DP600 overlap joints due to gas metal arc welding and the influence of the mesh density, Comput. Mater. Sci, vol.46, pp.977-986, 2009.

A. Matsunawa, D. J. Kim, N. Seto, M. Mizutani, and S. Katayama, Dynamics of keyhole and molten pool in laser welding, J. Laser Appl, vol.10, pp.247-254, 1998.

F. Abt, M. Boley, R. Weber, T. Graf, G. Popko et al., Novel X-ray system for in-situ diagnostics of laser based processes-First experimental results, Phys. Procedia, vol.12, pp.761-770, 2011.

M. Zhang, G. Chen, Y. Zhou, and S. Li, Direct observation of keyhole characteristics in deep penetration laser welding with a 10 kW fiber laser, Opt. Express, vol.21, 2013.