Increasing formability in hole-flanging through the use of punch rotation based on temperature and strain rate dependent forming limit curves

Abstract: Conventional hole-flanging by stamping is characterized by low formability. It is common knowledge that formability can be improved by forming at high temperatures. High-speed punch rotation is introduced to conventional hole-flanging to use frictional heat to improve and control formability. Thermomechanical finite element (FE) simulations of conventional hole-flanging and hole-flanging with punch rotation are used to determine the effects of punch rotation on the process temperature. Hot tensile tests were c… Show more

“…Round tools form flanges with higher formability compared to paddle-shaped tools. Optical strain measurements of flanges reveal that the lower formability observed in hole flanging by paddle forming is because of biaxial stretching [11]. In this study, round tools rotating at high speeds are used to form DP 1000 blanks.…”

“…The process time was less than 2 s. The approximate strain rate was between 0.2 -1.8s −1 and is estimated from the change in the major strain divided by the process time. High tool speeds were used in the experiments based on the gain in formability reported in [11]. The tool had a diameter of 25 mm and was made from 1.2210 cold work steel alloyed with chromium and vanadium.…”

Increasing the Forming Limits in Hole Flanging of Dual-Phase (DP) 1000 Steel Using Punch Rotation

“…Round tools form flanges with higher formability compared to paddle-shaped tools. Optical strain measurements of flanges reveal that the lower formability observed in hole flanging by paddle forming is because of biaxial stretching [11]. In this study, round tools rotating at high speeds are used to form DP 1000 blanks.…”

“…The process time was less than 2 s. The approximate strain rate was between 0.2 -1.8s −1 and is estimated from the change in the major strain divided by the process time. High tool speeds were used in the experiments based on the gain in formability reported in [11]. The tool had a diameter of 25 mm and was made from 1.2210 cold work steel alloyed with chromium and vanadium.…”

Increasing the Forming Limits in Hole Flanging of Dual-Phase (DP) 1000 Steel Using Punch Rotation

Effect of meshing technique and time discretization size on thickness strain localization during hole-flanging simulation of DP980 sheet at high strain level

Experimental study on single point incremental hole flanging of aluminium 5052 material