Abstract:The precision simulation problem of the temperature field of hollow profile during the whole extrusion process, including the dividing and welding stages, was solved by mesh reconstruction technology of welding zone. Taking the porthole die extrusion of a typical aluminum hollow profile with large cross section as an example, the effects of billet temperature and extrusion speed on the maximum temperature of profile near the die exit and the temperature distribution on cross section were analyzed, and the reasonable billet temperature and extrusion speed were obtained. The results show that, the influence of the extrusion speed on the inhomogeneous temperature distribution of the cross section of the profile near the die exit is significant, while the influence of the billet temperature is not obvious. When the constant billet temperature is 500 ℃, the difference of the highest and lowest temperature (maximum temperature difference) on the profile cross-section increases from 28 ℃ to 60 ℃with the extrusion speed increasing from 0.6 mm/s to 3.0 mm/s. The changes of maximum temperature difference on the profile cross section are not more than 3 ℃ with the billet temperature varying from 480 ℃ to 520 ℃ at constant extrusion speed. The extrusion conditions are that when the billet temperatures are 520, 500 and 480 ℃, the reasonable extrusion speed ranges are 0.63~0.93 mm/s, 0.87~1.14 mm/s and 1.10~1.34 mm/s, respectively.

Key words: hollow profile; porthole die extrusion forming; meshes reconstruction; temperature field