T. Welo et al., THE BEHAVIOR OF THIN-WALLED, ALUMINUM-ALLOY PROFILES IN ROTARY DRAW BENDING - A COMPARISON BETWEEN NUMERICAL AND EXPERIMENTAL RESULTS, Journal of materials processing technology, 45(1-4), 1994, pp. 173-180
This paper deals with elasto-plastic finite element (FE) analysis of a
rotary draw bending process using eight-node brick elements and conta
ct elements. The objective of the study is to determine the applicabil
ity of using numerical simulation to predict bendability and elastic s
pringback in industrial bending. Particular attention is paid to study
ing the effects of die radius and interface friction on flange sagging
and springback. The computations have been validated by experiments c
onducted in a standard rotary draw bending machine. Single and double
chambered cross-sectional shapes in alloy AA6063 were bent into differ
ent radii, with and without use of internal mandrels. The results show
that by applying models that give an accurate description of material
strain-hardening and interface friction, the simulated behaviour coin
cides well with the experimental behaviour. It is concluded that FE an
alysis has been used successfully to reproduce experimental results. T
he simulations appeared to be extremely time-consuming, even on a Cray
Y-MP supercomputer, but in the near future it is to be expected that
simulations are to be regularly used for die design and optimization p
urposes of bent aluminium alloy shapes.