期刊
出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.msea.2005.08.006
关键词
creep; transitions; climb; glide; zirconium; diffusion
Alloy class materials exhibit viscous glide controlled creep, where dislocations are locked by solute atoms thereby decreasing their glide velocity while dislocation annihilation by climb still occurs. The creep-rate here varies as cube of the applied stress (stress exponent, n = 3) while the activation for creep becomes equal to that for solute atom diffusion. At high enough stress, the dislocations get freed from solute atom locking and transition to climb controlled creep is noted with n similar to 5 while at still higher stresses, power-law breakdown is observed. For relatively small grain-sizes, viscous creep mechanisms such as Nabarro-Herring or Coble creep usually occur at low stresses. A close examination of the model equations reveals that at temperatures below a critical temperature, a transition from diffusional viscous creep to dislocation climb occurs without the intermediate viscous glide creep. Recent experimental results on a Zr-Nb sheet clearly follow these formulations exhibiting narrower intermediate region with decreasing temperature. (c) 2005 Elsevier B.V. All rights reserved.
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