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Australian Journal of Mechanical Engineering Volume 6, 2008 - Issue 2: ACAM 2007
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technical paper

Investigation of plasticity–induced fatigue crack closure

J CodringtonSchool of Mechanical Engineering, The University of Adelaide, South AustraliaCorrespondence[email protected]
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A KotousovSchool of Mechanical Engineering, The University of Adelaide, South AustraliaView further author information
Pages 87-93 | Published online: 22 Sep 2015

References

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  • Chermahini, R. G., Shivakumar, K. N., Newman, J. C. Jr. & Blom, A. F. 1989, “Three-dimensional aspects of plasticity-induced fatigue crack closure”, Eng Fract Mech, Vol. 34, pp. 393–401.
  • Codrington, J. & Kotousov, A. 2007, “The distributed dislocation technique for calculating plasticity-induced crack closure in plates of finite thickness”, Int J Fract, Vol. 144, pp. 285–295.
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  • Lee, C. S., Park, C. G. & Chang, Y. W. 1996, “Precise determination of fatigue crack closure in Al alloys”, Mat Sci Eng, Vol. A216, pp. 131–138.
  • McClung, R. C. & Sehitoglu, H. 1983, “On the finite element analysis of fatigue crack closure – 2 Numerical results”, Eng Fract Mech, Vol. 33, pp. 253–272.
  • Newman, J. C. Jr. 1981, “A crack closure model for predicting fatigue crack growth under aircraft spectrum loading”, ASTM STP 748, American Society for Testing and Materials, Philadelphia, pp. 53–84.
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