A Review of Physical Appearance of Molten Metal Droplet in Arc Welding Process
Keywords:
Drop, Molten, Overview, ReviewAbstract
This fundamental research presents an overview of a molten metal flow in arc welding processes. This study presents a systematic review of the fluidity of molten drop in any surface concerning the investigation results. This paper consists of monochromatic imaging of a reflection of molten droplets, welding spectrum of a grating monochromator by high-speed imaging with a prism, reviewing of the physical mechanism of molten macro drops with implementing of hydroforming effect. Many research papers are being reviewed but a systematic review of molten droplets was missing in current research areas. However, the outcome of the study is to develop an overview structural idea of molten droplets.
References
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Inoue, Katsunori. "Image Processing for On-Line Detection of Welding Process (Report III): Improvement of Image Quality by Incorporation of Spectrum of Arc." Transactions of JWRI 10.1 (1981): 13-18.
Attinger, Daniel, Z. Zhao, and D. Poulikakos. "An experimental study of molten microdroplet surface deposition and solidification: transient behavior and wetting angle dynamics." J. Heat Transfer 122.3 (2000): 544-556.
Biance, Anne-Laure, Christophe Clanet, and David Quéré. "First steps in the spreading of a liquid droplet." Physical Review E 69.1 (2004): 016301.
Chapuis, Julien, et al. "Behaviour of spreading molten metal drops deposited by fusion."Experimental thermal and fluid science 48 (2013): 29-36.
Chin, Hong Bai, and Chang Dae Han. "Studies on droplet deformation and breakup. II. Breakup of a droplet in nonuniform shear flow."Journal of Rheology 24.1 (1980): 1-37.
Cho, Min Hyun, Yong Chae Lim, and Dave F. Farson. "Simulation of weld pool dynamics in the stationary pulsed gas metal arc welding process and final weld shape." WELDING JOURNAL-NEW YORK- 85.12 (2006): 271.
Cristini, Vittorio, and Yung-Chieh Tan. "Theory and numerical simulation of droplet dynamics in complex flows—a review." Lab on a Chip 4.4 (2004): 257-264.
DebRoy, Tl, and S. A. David. "Physical processes in fusion welding." eviews of modern physics 67.1 (1995): 85.
Fan, H. G., and R. Kovacevic. "Droplet formation, detachment, and impingement on the molten pool in gas metal arc welding." Metallurgical and materials transactions B 30.4 (1999): 791-801.
Gao, Fuquan, and Ain A. Sonin. "Precise deposition of molten microdrops: the physics of digital microfabrication." Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences 444.1922 (1994): 533-554.
Hoffman, Loren H. "Placentation in the garter snake, Thamnophis sirtalis." Journal of Morphology 131.1 (1970): 57-87.
Lim, Y. C., et al. "Stationary GMAW-P weld metal deposit spreading." Science and Technology of Welding and Joining 14.7 (2009): 626-635
Li, Ri, et al. "Solidification contact angles of molten droplets deposited on solid surfaces." Journal of materials science 42.23 (2007): 9511-9523.
Mills, K. C., E. D. Hondros, and Zushu Li. "Interfacial phenomena in high temperature processes." Journal of Materials Science 40.9 (2005): 2403-2409.
Ogawa, Y. "High speed imaging technique Part 1–high speed imaging of arc welding phenomena." Science and Technology of Welding and Joining 16.1 (2011): 33-43.
Quéré, David. "Rough ideas on wetting." Physica A: Statistical Mechanics and its Applications 313.1-2 (2002): 32-46.
Romero, Edward, et al. "Image processing and geometrical analysis for profile detection during pulsed gas metal arc welding." Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 227.3 (2013): 396-406.
Schiaffino, Stefano, and Ain A. Sonin. "Formation and stability of liquid and molten beads on a solid surface." Journal of fluid mechanics 343 (1997): 95-110.
Tan, Yung-Chieh, Vittorio Cristini, and Abraham P. Lee. "Monodispersed microfluidic droplet generation by shear focusing microfluidic device." Sensors and Actuators B: Chemical 114.1 (2006): 350-356.
Inoue, Katsunori. "Image Processing for On-Line Detection of Welding Process (Report III): Improvement of Image Quality by Incorporation of Spectrum of Arc." Transactions of JWRI 10.1 (1981): 13-18.
Attinger, Daniel, Z. Zhao, and D. Poulikakos. "An experimental study of molten microdroplet surface deposition and solidification: transient behavior and wetting angle dynamics." J. Heat Transfer 122.3 (2000): 544-556.
Biance, Anne-Laure, Christophe Clanet, and David Quéré. "First steps in the spreading of a liquid droplet." Physical Review E 69.1 (2004): 016301.
Chapuis, Julien, et al. "Behaviour of spreading molten metal drops deposited by fusion."Experimental thermal and fluid science 48 (2013): 29-36.
Chin, Hong Bai, and Chang Dae Han. "Studies on droplet deformation and breakup. II. Breakup of a droplet in nonuniform shear flow."Journal of Rheology 24.1 (1980): 1-37.
Cho, Min Hyun, Yong Chae Lim, and Dave F. Farson. "Simulation of weld pool dynamics in the stationary pulsed gas metal arc welding process and final weld shape." WELDING JOURNAL-NEW YORK- 85.12 (2006): 271.
Cristini, Vittorio, and Yung-Chieh Tan. "Theory and numerical simulation of droplet dynamics in complex flows—a review." Lab on a Chip 4.4 (2004): 257-264.
DebRoy, Tl, and S. A. David. "Physical processes in fusion welding." eviews of modern physics 67.1 (1995): 85.
Fan, H. G., and R. Kovacevic. "Droplet formation, detachment, and impingement on the molten pool in gas metal arc welding." Metallurgical and materials transactions B 30.4 (1999): 791-801.
Gao, Fuquan, and Ain A. Sonin. "Precise deposition of molten microdrops: the physics of digital microfabrication." Proceedings of the Royal Society of London. Series A: Mathematical and Physical Sciences 444.1922 (1994): 533-554.
Hoffman, Loren H. "Placentation in the garter snake, Thamnophis sirtalis." Journal of Morphology 131.1 (1970): 57-87.
Lim, Y. C., et al. "Stationary GMAW-P weld metal deposit spreading." Science and Technology of Welding and Joining 14.7 (2009): 626-635
Li, Ri, et al. "Solidification contact angles of molten droplets deposited on solid surfaces." Journal of materials science 42.23 (2007): 9511-9523.
Mills, K. C., E. D. Hondros, and Zushu Li. "Interfacial phenomena in high temperature processes." Journal of Materials Science 40.9 (2005): 2403-2409.
Ogawa, Y. "High speed imaging technique Part 1–high speed imaging of arc welding phenomena." Science and Technology of Welding and Joining 16.1 (2011): 33-43.
Quéré, David. "Rough ideas on wetting." Physica A: Statistical Mechanics and its Applications 313.1-2 (2002): 32-46.
Romero, Edward, et al. "Image processing and geometrical analysis for profile detection during pulsed gas metal arc welding." Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 227.3 (2013): 396-406.
Schiaffino, Stefano, and Ain A. Sonin. "Formation and stability of liquid and molten beads on a solid surface." Journal of fluid mechanics 343 (1997): 95-110.
Tan, Yung-Chieh, Vittorio Cristini, and Abraham P. Lee. "Monodispersed microfluidic droplet generation by shear focusing microfluidic device." Sensors and Actuators B: Chemical 114.1 (2006): 350-356.
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Published
2022-02-22
How to Cite
Saha, A. K. ., & Majumdar, S. . (2022). A Review of Physical Appearance of Molten Metal Droplet in Arc Welding Process. Proceeding International Conference on Religion, Science and Education, 1, 501–505. Retrieved from http://sunankalijaga.org/prosiding/index.php/icrse/article/view/829
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