论文信息 - A thermomechanical hot channel approach for friction stir welding

A thermomechanical hot channel approach for friction stir welding

Abstract This paper provides a theoretical framework for developing a thermomechanical hot channel (THC) approach for augmenting the friction stir welding (FSW) process. The model follows from the Rosenthal solution for moving point sources where heat input from the tool shoulder acts as a warm source while plasmas or laser heat sources provide higher energy input. The THC approach aims at decreasing tool wear by reducing the demand for frictional heat from the tool shoulder and pin. In the proposed model, the THC processing temperature is approximately 1000 °C, which is close to the temperature required for stir welding steel.

Keith Williamson | S. Mandal | S. Mandal | K. Williamson

[1] D. Rosenthal. Mathematical Theory of Heat Distribution during Welding and Cutting , 1941 .

[2] T. J. Lienert,et al. Improved weldability diagram for pulsed laser welded austenitic stainless steels , 2003 .

[3] E. D. Nicholas,et al. Feasibility of friction stir welding steel , 1999 .

[4] Radovan Kovacevic,et al. Thermal modeling of friction stir welding in a moving coordinate system and its validation , 2003 .

[5] Elijah Kannatey-Asibu. Thermal Aspects of the Split-Beam Laser Welding Concept , 1990 .

[6] B. B. Grimmett,et al. Friction stir welding studies on mild steel , 2003 .