T. Sheppard scite author profile

This investigation focuses on simulation of the extrusion process and in particular the effect of the initial billet temperature on friction and its consequences on material ow. The simulation is compared with data obtained from an experimental extrusion press. All the simulations are performed with the implicit nite element codes FORGE2 and FORGE3. The effect of the initial billet temperature on the deformation zone pattern and its consequent effect on friction using both numerical simulation and experimental work are presented. A comparison with experiments is made to assess the relative importance of some extrusion parameters in the extrusion process and to ensure that the numerical discretisation provided a true simulation of the process. A speci c functional relationship to directly measure interfacial friction under conditions approaching those encountered in the quasi-static deformation process is described. The results revealed that the friction factor increases with increase in initial billet temperature and varies from 0 . 65 at 300°C to a 0 . 91 at 450°C after reaching the peak pressure. The dead metal zone is observed to vary in form and has a greater volume at high temperatures. The increase in friction results in an increase of initial extrusion load. The nite element program appears to predict all the major characteristics of the ow observed macroscopically. MST/5520The authors are in Bournemouth University,

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Constitutive equations for use in prediction of flow stress during extrusion of aluminium alloys

Sheppard¹,

Jackson²

1997

mats. sci. tech.

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T. Sheppard

Extrusion of Aluminium Alloys

Constitutive equations for use in prediction of flow stress during extrusion of aluminium alloys

Determination of flow stress: Part 1 constitutive equation for aluminium alloys at elevated temperatures

Nature of friction in extrusion process and its effect on material flow

Constitutive equations for use in prediction of flow stress during extrusion of aluminium alloys

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