3 research outputs found
The influence of curvature on FLCâs of mild steel, (A)HSS and aluminium
In literature the influence of curvature on formability has been reported. This\ud
paper shows results for four materials when an FLC is measured with increasing curvature. It shows the FLC increases for sharper curvature most notably with 20 [mm] tool diameter. The increase is negligible on the left hand side, moderate on the right hand side and large on the plane strain axis. It is thought that contact pressure plays a role here and preliminary simulations indicate that this is quite possible
Influence of Punch Radius in a Nakazima Test for Mild Steel and Aluminium
Forming limit curves are usually determined for membrane type deformations. Recently, the influence of simultaneous bending deformation on the forming limits has attracted renewed attention. In this paper, FLCs are\ud
determined for a DC06 steel and an AA5051 aluminium alloy by the standard Nakazima test procedure with different punch diameters. The difference in FLC obtained with punch diameters of 100 mm and 75 mm is negligible. For\ud
aluminium, the FLC is shifted upwards slightly for a Ă50 mm punch and significantly for a Ă20 mm punch. For DC06, only the experiments with a Ă20 mm punch show a relevant increase in formability. The increased formability cannot be explained by simply transforming the measured (outer) strains to the mid-plane or inner-plane, as proposed by the so-called concave-side-rule. The experimentally observed and numerically validated high pressure on the inner surface for small punch diameters may be responsible for the increased stability of the deformation