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Influence of grain size on the compressive deformation of wrought Mg-3A1-1Zn

journal contribution
posted on 2004-10-01, 00:00 authored by Matthew BarnettMatthew Barnett, Zohreh Keshavarz, Aiden BeerAiden Beer, Dale Atwell
The influence of the grain size on the flow stress of extruded Mg–3Al–1Zn tested in compression is examined. Samples with grain sizes varying between 3 and 23 μm were prepared by altering the extrusion conditions. Compression testing of the extruded bar was carried out at temperatures between ambient and 200 °C. Twinning dominated the deformation at lower temperatures but this gave way to slip dominated flow when the temperature was raised. For tests carried out at intermediate temperatures, a similar transition was observed when the grain size was reduced. The transition was accompanied by a change in flow curve shape and Hall–Petch slope. The peak stresses achieved when twinning dominated the deformation were up to 100 MPa greater than those seen when slip dominated the flow. Critical grain sizes marking the twinning–slip transition were identified and these are described in terms of the deformation conditions.

History

Journal

Acta Materialia

Volume

52

Issue

17

Pagination

5093 - 5103

Publisher

Elsevier Science

Location

Tarrytown, NY ; Oxford, England

ISSN

1359-6454

eISSN

1873-2453

Language

eng

Publication classification

C1 Refereed article in a scholarly journal

Copyright notice

2004, Elsevier Science