Cold drawing of regular polygonal tubular sections from round tubes

An analytical solution is obtained for the problem of cold drawing through flat idle rolls of regular polygonal metal tubular sections from round tube . The solution is based on obtaining a compatible velocity field that satis fies kinematic conditions to yield the strain-rate components. The stresses are obtained by combining the material constitutive law with Levy-Mises fl ow rule and integrating the equations of equilibrium. The solution is appli ed to the case of a low-carbon steel standard round pipe to investigate the effects of drawn section shape, friction at the roll interface, roll radiu s and wall thickness on the roll load and drawing force. The results obtain ed have shown that for different section shapes the roll load and drawing f orce decrease with the increase of the number of sides and increase with th e decrease of corners radius. Surface friction has no appreciable effect on the loads which allows dry drawing. An increase in the roll radius increas es the roll load but the drawing force remains unchanged. Increasing the wa ll thickness does not proportionally increase the roll load and drawing for ce; the tube wall behaves as a thin shell subjected to biaxial combined mem brane and bending stresses. (C) 2001 Elsevier Science Ltd. All rights reser ved.