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The stress field of a dislocation lying in a plate
The stress field of an edge dislocation lying in the midplane of an isotropic plate of thickness 2a with free surfaces is calculated. The Burgers vector b lies in the plane of the plate. The field is ...
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Edge-dislocation displacements in an elastic strip

J. Appl. Phys. 49, 5449 (1978); doi:10.1063/1.324512

Issue Date: November 1978

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William C. Moss and William G. Hoover
Lawrence Livermore Laboratory and Department of Applied Science, University of California, Davis-Livermore, Livermore, California 94550
A Fourier-transform method is used to obtain the displacement field for an edge dislocation. The method reproduces known results and produces new solutions that can be compared with those from atomistic models of edge dislocations. Journal of Applied Physics is copyrighted by The American Institute of Physics.
Permalink: http://link.aip.org/link/?JAPIAU/49/5449/1
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KEYWORDS and PACS

Keywords
PACS
  • 61.70.Ga
    Structure of liquids and solids; crystallography Defects in crystals Dislocations: theory
  • 46.30.Cn
    Mechanics, elasticity, rheology Mechanics of solids and rheology Static elasticity
  • 03.40.Dz
    Classical and quantum physics; mechanics and fields Classical mechanics of continuous media: general mathematical aspects Mathematical theory of elasticity
  • YEAR: 1978

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PUBLICATION DATA

ISSN:
0021-8979 (print)   1089-7550 (online)
Publisher:
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REFERENCES (6)
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  1. F. R. N. Nabarro, Theory of Crystal Dislocations (McGraw-Hill, New York, 1967).
  2. W. C. Moss, W. G. Hoover, N. E. Hoover, and W. T. Ashurst, Bull. Am. Phys. Soc. 22, 464 (1977).
  3. W. C. Moss (unpublished);
  4. W. G. Hoover, N. E. Hoover, W. C. Moss, J. Appl. Phys. (to be published).
  5. W. G. Hoover, W. T. Ashurst, and R. J. Olness, J. Chem. Phys. 60, 4043 (1974).
  6. F. Kroupa, Czech. J. Phys. 9, 332, 488 (1959).
  7. F. R. N. Nabarro and E. Kostlan, previous paper, J. Appl. Phys. 49, 5445 (1978).

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