1970
DOI: 10.1016/0036-9748(70)90211-5
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Inherent lattice hardening and interstitial solution hardening in tantalum

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Cited by 44 publications
(7 citation statements)
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“…The Peierls stress decreases ostensibly linearly up to a critical temperature T c , beyond which it rapidly tends to zero. These trends are in agreement with the experimental observations of Wasserb ach (1986) and Lachenmann and Schultz (1970). The critical temperature T c increases with the strain rate.…”
Section: Dislocation Mobilitysupporting
confidence: 92%
“…The Peierls stress decreases ostensibly linearly up to a critical temperature T c , beyond which it rapidly tends to zero. These trends are in agreement with the experimental observations of Wasserb ach (1986) and Lachenmann and Schultz (1970). The critical temperature T c increases with the strain rate.…”
Section: Dislocation Mobilitysupporting
confidence: 92%
“…The Peierls stress decreases ostensibly linearly up to a critical temperature T c , beyond which it tends to zero. These trends are in agreement with the experimental observations of Wasserbäch [22] and Lachenmann and Schultz [23]. The critical temperature T c increases with the strain rate.…”
Section: Dislocation Mobility: Double-kink Formation and Thermally Acsupporting
confidence: 92%
“…With thermal fluctuations, these results did not change significantly, though at lowγ, which is where the change would be greatest, it was not possible to include fluctuations and maintain reasonable computation times. Similar linear decreases in γ P as some effective T c is approached have been found in experiment [16,17] and theory [18,19], along with increases in γ P withγ much like those shown in Fig. 6.…”
Section: Peierls Barrier For Glidesupporting
confidence: 86%