An analytical solution for the estimation of the drawing force in three dimensional plate drawing processes
Articolo
Data di Pubblicazione:
2014
Abstract:
An analytical solution for the estimation of the drawing force requested to perform a three dimensional drawing of a rectangular plate is presented.
It has been developed using the limit analysis technique, on the basis of a three-dimensional velocity field, under the main assumptions of constant friction and perfect plasticity.
To overcome the limitations given by these hypothesis, some extensions of the proposed upper bound model are presented, accounting for the material strain hardening and for the Coulomb friction between the plate and the die, thus avoiding the need to calibrate physically meaningless coefficients.
The effectiveness of the proposed results is demonstrated by comparison with both experimental results and new numerical solutions.
It has been developed using the limit analysis technique, on the basis of a three-dimensional velocity field, under the main assumptions of constant friction and perfect plasticity.
To overcome the limitations given by these hypothesis, some extensions of the proposed upper bound model are presented, accounting for the material strain hardening and for the Coulomb friction between the plate and the die, thus avoiding the need to calibrate physically meaningless coefficients.
The effectiveness of the proposed results is demonstrated by comparison with both experimental results and new numerical solutions.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Drawing process; Plate drawing; Limit analysis; Drawing force
Elenco autori:
Panteghini, Andrea
Link alla scheda completa:
Pubblicato in: