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Philosophical Magazine Letters Volume 91, 2011 - Issue 7
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Original Articles

On the Escaig obstacle hypothesis for cross-slip in face-centered-cubic materials

S.I. Rao UES, Inc., 4401 Dayton-Xenia Rd, Dayton, OH 45432-1894, USACorrespondence[email protected]
,
D.M. Dimiduk Air Force Research Laboratory, Materials and Manufacturing Directorate, AFRL/MLLM Wright-Patterson AFB, OH 45433-7817, USA
,
C. Woodward Air Force Research Laboratory, Materials and Manufacturing Directorate, AFRL/MLLM Wright-Patterson AFB, OH 45433-7817, USA
&
T.A. Parthasarathy UES, Inc., 4401 Dayton-Xenia Rd, Dayton, OH 45432-1894, USA
Pages 452-457 | Received 27 Sep 2010, Accepted 11 Apr 2011, Published online: 03 May 2011
 
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Abstract

There is a significant body of literature wherein a linear approximation of Escaig's model is used to justify the large experimentally measured activation-volumes for cross-slip in face-centered-cubic copper. Here, by examining the error between the linear approximation and the original theory, we show that this explanation is not satisfactory. The calculated value for activation volume in copper, using Escaig's original equations, yields ∼60b 3 (b = Burgers vector) while the linear approximation yields 200b 3, the latter result fortuitously matching the experimental values.

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