A study on power-controlled wire-arc additive manufacturing using a data-driven surrogate model

Israr, Rameez; Buhl, Johannes; Bambach, Markus

doi:10.1007/s00170-021-07358-y

Cited by 9 publications

(1 citation statement)

References 36 publications

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“…Table 1 presents the various parameters of Goldak's heat source used in this study. The parameters n = 1, v = 7.5 mm/s, and f = 1 remain constant for all the models, while the remaining heat source parameters are changed according to the bead shapes, as explained in previous work [53,[58][59][60]. The welding parameters for all simulations were kept the same.…”

Section: Heat Source Modelmentioning

confidence: 99%

Reinforcement of Tooling Using Residual Stresses Generated by Cladding by Arc Welding

Israr

Buhl

Härtel

et al. 2022

Metals

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Cladding is typically used to protect components from wear and corrosion while also improving the aesthetic value and reliability of the substrate. The cladding process induces significant residual stresses due to the temperature difference between the substrate and the clad layer. However, these residual stresses could be effectively utilized by modifying processes and geometrical parameters. This paper introduces a novel methodology for using the weld-cladding process as a cost-effective alternative to various existing reinforcement techniques. The numerical analyses are performed to maximize the reinforcement of a cylindrical tool. The investigation of how the weld cladding develops compressive stresses on the specimen in response to a change in the weld beads and the welding sequence is presented. For the benchmark shape, experimental verification of the numerical model is performed. The influence of the distance between the weld beads and the effect of the tool diameter is numerically investigated. Furthermore, the variation in compressive stresses due to temperature fluctuations during the extrusion process has been evaluated. The results showed that adequate compressive stresses are generated on the welded parts through the cladding process after cooling. More compressive stresses are induced in the tool as the cross-section of the weld bead is increased. Furthermore, keeping a gap between the adjacent beads improves tool reinforcement. Hence, the targeted reinforcement of the substrate can be achieved by optimizing the welding sequence and process parameters.

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Section: Heat Source Modelmentioning

confidence: 99%