Affiliation:
1. Tata Steel Research Development and Technology
2. University of Twente
Abstract
This paper discusses some consequences of forming by shear, a situation that is sometimes
claimed to occur in incremental forming. The determination of the principal strains and principal
directions is discussed in detail. Two methods are presented: using a circular grid (although
simulated on the computer), and by deriving formulae from the theory; both yield identical results.
The strains assuming forming by shear are found to be (much) higher than in situations of forming
by stretch. This affects notably more fundamental studies on material behaviour in incremental
forming. The effects are illustrated using experimental data obtained with pre-stressed material.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
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4. A.H. van den Boogaard; Thermally Enhanced Forming of Aluminium Sheet; Thesis University of Twente, the Netherlands, (2002).
5. E. Hagan, J. Jeswiet. Effect of wall angle on Al 3003 strain hardening for parts formed by computer numerical control incremental forming. Proc. Inst. Mech. Engnrs vol 217(2003), Part B: J. Engineering Manufacture, pp.1571-1579.
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