Effect of boundary conditions and heat source distribution on temperature distribution in friction stir welding

Simar, Aude; Lecomte-Beckers, J; Pardoen, Thomas; de Meester, B.

doi:10.1179/174329306X84409

Effect of boundary conditions and heat source distribution on temperature distribution in friction stir welding

Simar, Aude

;

Lecomte-Beckers, J

;

Pardoen, Thomas

;

de Meester, B.

(2006) Science and Technology of Welding and Joining (Print) — Vol. 11, n° 2, p. 170-177 (2006)

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Simar, AudeUCLouvain
Author
Lecomte-Beckers, J
Author
Pardoen, ThomasUCLouvain
Author
de Meester, B.
Author

Abstract

Welding experiments on Al-6005A have been carried out using a fully instrumented milling machine. The power input was calculated from the measured torque and forces. The thermal cycles were measured at various locations close to the weld centreline. A finite element pseudo-steady-state uncoupled thermal model was developed, taking into account the influence of the welding parameters on the power input. The distribution of the total power input between surface and volume heat sources was also studied. The measured and predicted thermal cycles are in good agreement when proper contact conditions between the workpiece and the backing plate are introduced.

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Simar, A., Lecomte-Beckers, J., Pardoen, T., & de Meester, B. (2006). Effect of boundary conditions and heat source distribution on temperature distribution in friction stir welding. Science and Technology of Welding and Joining (Print), 11(2), 170-177. https://doi.org/10.1179/174329306X84409 (Original work published 2006)