Title of article
Strain hardening of titanium: role of deformation twinning Original Research Article
Author/Authors
Ayman A. Salem، نويسنده , , Surya R. Kalidindi، نويسنده , , Roger D. Doherty، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2003
Pages
13
From page
4225
To page
4237
Abstract
The purpose of this study is to investigate the role of deformation twinning in the strain-hardening behavior of high purity, polycrystalline α-titanium in a number of different deformation modes. Constant strain rate tests were conducted on this material in simple compression, plane-strain compression and simple shear, and the true stress (σ)-true strain (ε) responses were documented. From the measured data, the strain hardening rates were numerically computed, normalized by the shear modulus (G), and plotted against both normalized stress and ε. These normalized strain hardening plots exhibited three distinct stages of strain hardening that were similar to those observed in previous studies on low stacking fault energy fcc metals (e.g. 70/30 brass) in which deformation twinning has been known to play an important role. Optical microscopy and Orientation imaging microscopy were conducted on samples deformed to different strain levels in the various deformation paths. It was found that the onset of deformation twinning correlated with a sudden increase in strain hardening rate in compression tests. The falling strain hardening rate correlated with saturation in the twin volume fraction. In shear testing a much lower rate of strain hardening was found, at all strains, and this correlated with a lower density of deformation twinning.
Keywords
Titanium , Twinning , Path-Change , Plastic , Deformation , Strain hardening
Journal title
ACTA Materialia
Serial Year
2003
Journal title
ACTA Materialia
Record number
1140450
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