Theoretical and Applied Mechanics (Jan 2005)

Elastic-plastic analysis of crack on bimaterial interface

  • Nikolić Ružica R.,
  • Veljković Jelena M.

DOI
https://doi.org/10.2298/TAM0503193N
Journal volume & issue
Vol. 32, no. 3
pp. 193 – 207

Abstract

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In this paper are presented solutions for the stress and dis­placement fields for a crack that lies along the interface of an elastic and elastic - plastic material and for a crack between two different elastic - plastic materials. These solutions are obtained using the J2-deformation theory with the power - law strain hardening. In this paper results are described for a small scale yielding at the crack tip. The near tip fields do not have a separable singular form, of the HRR type fields, as in homogeneous media, they do, however bare interesting similarities to certain mixed -mode HRR fields. Under the small scale yielding the elastic fields are specified by a complex stress intensity factor and phase angle loading, while plastic field is characterized by a new phase angle. The size of plastic zone in plane strain and plane stress and displacement fields at the crack tip for the new phase angle are obtained. The crack tip opens smoothly and the crack opening displacement is scaled by the J-integral. The whole analysis is performed by application of the Mathematica symbolic programming routine.