Abstract
This study aims to develop a unified constitutive model describing the flow behaviors of pure Ta and Ta–W alloys over a wide range of strain rate and temperature. The model was based on the previously suggested model by Nemat-Nasser and Isaacs [3] and was further extended to capture the hardening effects caused by the changes in solute contents and concentrations, and grain size; while interstitial solutes (C, N, and O) increased the thermal stress, substitutional solute (W) increased both the thermal and athermal stresses. The results showed that the developed model can provide a reasonable prediction on the flow behaviors of pure Ta and Ta–W alloys (Ta–2.47W, Ta–5.2W, and Ta–9.8W) with different grain sizes of 0.3–45μm over a strain rate range of 1–10−6s−1 and a temperature range of 77–900K without any change in the material constants used.
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