Significant Attention in Industry and Academia for Wire Arc Additive Manufacturing (WAAM) - A Review
International Research Journal on Advanced Science Hub,
2022, Volume 4, Issue 07, Pages 198-204
AbstractThe review paper aims to outline the most significant accomplishments in Wire Arc Additive Manufacturing. It can capture the benefits of using the Additive Manufacturing method to manufacture layer-by-layer deposition at significantly reduced production values. Due to the viability of cautiously producing bulky metal components with comparatively high deposition rates, weighty progress has been complete in the thoughtful of the Wire Arc Additive Manufacturing process. Compared to ancient production, the use of this method has resulted in decreased Buy-To-Fly ratios of components the many applications such as saltwater valves, pumps, and turbine propellers, thereby aiding small-batch production. The input parameter is the travel speed, and the output deposition is layered large-scale metal elements with comparatively high deposition rates. The creation of cost-efficient prototypes as microstructure and mechanical properties, deformation, porosity, and cracking are also concerted in different alloy components.
Bento, Joao B. “Non-Destructive Testing for Wire ˜ + Arc Additive Manufacturing of Aluminium Parts”. Additive Manufacturing 29 (2019): 100782–100782. 10.1016/j.addma.2019.100782.
Conner, Brett P. “Making Sense of 3-D Printing: Creating a Map of Additive Manufacturing Products and Services”. Additive Manufacturing 1.4 (2014): 64–76. 10.1016/j.addma.2014.08.005.
Derekar, Karan S., et al. “Effect of pulsed metal inert gas (pulsed-MIG) and cold metal transfer (CMT) techniques on hydrogen dissolution in wire arc additive manufacturing (WAAM) of aluminium”. The International Journal of Advanced Manufacturing Technology 107.1-2 (2020): 311–331. 10. 1007/s00170-020-04946-2.
Eimer, E., et al. “Wire Laser Arc Additive Manufacture of aluminium zinc alloys”. Welding in the World 64.8 (2020): 1313–1319. 10.1007/s40194- 020-00872-9.
Gierth, Maximilian, et al. “Wire Arc Additive Manufacturing (WAAM) of Aluminum Alloy AlMg5Mn with Energy-Reduced Gas Metal Arc Welding (GMAW)”. Materials 13.12 (2020): 2671–2671. 10.3390/ma13122671.
Horgar, A., et al. “Additive manufacturing using WAAM with AA5183 wire”. Journal of Materials Processing Technology 259 (2018): 68–74. 10.1016/j.jmatprotec.2018.04.014.
Klein, Thomas and Martin Schnall. “Control of macro-/microstructure and mechanical properties of a wire-arc additive manufactured aluminum alloy”. The International Journal of Advanced Manufacturing Technology 108.1-2 (2020): 235– 244. 10.1007/s00170-020-05396-6.
Control of Macro-/Microstructure and Mechanical Properties of a Wire-Arc Additive Manufactured Aluminum Alloy. The International Journal of Advanced Manufacturing Technology 108.1-2 (2020): 235–244. 10.1007/s00170-020-05396-6.
Kok, Y. “Anisotropy and Heterogeneity of Microstructure and Mechanical Properties in Metal Additive Manufacturing: A Critical Review”. Materials & Design 139 (2018): 565– 586. 10.1016/j.matdes.2017.11.021.
Kruth, J. -P., M. C. Leu, and T. Nakagawa. “Progress in Additive Manufacturing and Rapid Prototyping”. CIRP Annals 47.2 (1998): 525–540. 10 . 1016/s0007-8506(07)63240-5.
Li, Sen. “Comparative Study on the Microstructures and Properties of Wire+Arc Additively Manufactured 5356 Aluminium Alloy with Argon and Nitrogen as the Shielding Gas”. Additive Manufacturing 34 (2020): 101206–101206. 10.1016/j. addma.2020.101206.
Liu, Zhi-Qiang. “Wire and Arc Additive Manufacturing of 4043 al Alloy Using a Cold Metal Transfer Method”. International Journal of Minerals, Metallurgy and Materials 27.6 (2020): 783–791. 10.1007/s12613-019-1930-6.
Pramod, R. “Fabrication, Characterisation, and Finite Element Analysis of Cold Metal TransferBased Wire and Arc Additive-Manufactured Aluminium Alloy 4043 Cylinder”. Welding in the World 64.11 (2020): 1905–1919. 10 . 1007 / s40194-020-00970-8.
Thapliyal, Shivraman. “Challenges associated with the wire arc additive manufacturing (WAAM) of aluminum alloys”. Materials Research Express 6.11 (2019): 112006–112006. 10 . 1088 / 2053 - 1591/ab4dd4.
Zhou, Yinghui. “Mechanical Properties and Precipitation Behavior of the Heat-Treated Wire + Arc Additively Manufactured 2219 Aluminum Alloy”. Materials Characterization 171 (2021): 110735–11
- Article View: 33
- PDF Download: 17