Abstract
The effects of temperature, strain rate, and purity on the yield and flow stresses of α titanium at low temperatures (T < 0.4 TM) are examined to ascertain the rate controlling dislocation mechanism. The effect of impurity content on the thermal component of the yield and flow stresses increases with the decrease in temperature to 0 °K. The activation volume for the plastic flow of titanium of commercial purity ranges from 80b3 at τ* = 1 kg/mm2 to 8b3 at τ* = 45 kg/mm2. The activation energy ranges from about 1.3 eV to 0.18 eV over the same stress range. The experimental data are in good accord with the thermally activated overcoming of interstitial atoms as the rate controlling mechanism and a linear force-distance curve with FM = 43.2 × 10−6 dynes (0.9 × 10−1 μb2), d0 = 3.25b, and H0 = 1.25 eV (0.21 μb3).
Publisher
Canadian Science Publishing
Subject
General Physics and Astronomy
Cited by
92 articles.
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