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12.09.2020 | ORIGINAL ARTICLE | Ausgabe 9-10/2020 Open Access

The International Journal of Advanced Manufacturing Technology 9-10/2020

The potential of wire feed pulsation to influence factors that govern weld penetration in GMA welding

The International Journal of Advanced Manufacturing Technology > Ausgabe 9-10/2020
Vinicius Lemes Jorge, Fernando Matos Scotti, Ruham Pablo Reis, Américo Scotti
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The online version of this article (https://​doi.​org/​10.​1007/​s00170-020-06037-8) contains supplementary material, which is available to authorized users.

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Derivative welding processes are in many cases capable of altering phenomena that determine fundamental aspects of weld bead formation. Some of these evolutions act over the wire feed dynamics. However, in this scenario, the effects of the wire feed pulsation on the weld bead formation governing factors have not been fully explored yet. Therefore, this work aimed at examining how a wire feed pulsation approach affects the droplet transfer in gas metal arc welding and how its interaction with the molten pool defines the weld bead penetration. Bead-on-plate weldments were produced by varying the wire feed pulsation frequency, yet keeping the same levels of arc energy and wire feed speed, with the power source operating in constant voltage and current modes. To assess the droplet transfer behavior, high-speed imaging was used. The geometry of the weld beads was compared in terms of fusion penetration. The results showed that an increase in the wire feed pulsation frequency intensifies the detachment frequency of the droplets, being possible to accomplish a stable metal transfer with them straightly projected toward the weld pool, which contributed to a centralized-increased penetration profile. Based on a descriptive model, it was demonstrated that the increase in droplet momentum or kinetic energy, due to the wire feed pulsation, was not enough to justify the penetration enhancement. It was concluded that the wire feed dynamics can also stimulate surface tension variations in the weld pool and therefore disrupt the behavior of its mass and heat convection, supporting fusion penetration.
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