Affiliation:
1. University of Strathclyde
2. Warsaw University of Technology
3. AGH University of Science and Technology
Abstract
Batch SPD processes have a limited scope for being used on an industrial scale. More
feasible are continuous processes among which the new SPD process of Incremental ECAP (IECAP)
is an attractive option. In this paper, a double-billet version of I-ECAP, which doubles
process productivity, is presented. The concept of the process is first checked using the finite
element (FE) method. FE simulation results are the basis for the design of an experimental rig.
Trials of nanostructuring of 10x10x200 Al 1070 billets are carried out with the forces on the
reciprocating die and the feeder measured. Metallurgical samples after 4 and 8 passes of I-ECAP
(route BC) are investigated using TEM. Tensile properties after 8 passes are established. All these
results show that the new SPD process of I-ECAP gives the results comparable to those obtained by
a classical batch ECAP with the added capability of dealing with much longer (possibly infinite)
billets.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Cited by
28 articles.
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