A continuous stress field for the mode I crack problem for a perfectly plastic material under plane stress loading conditions has been obtained recently. Here, a kinematically admissible velocity field is introduced, which is compatible with the continuous stress field obtained earlier. By associating these two fields together, it is shown that they constitute a complete solution for the uncontained plastic flow problem around a finite length internal crack, having a positive rate of plastic work. The yield condition employed is an alternative criterion first proposed by Richard von Mises in order to approximate the plane stress Huber-Mises yield condition, which is elliptical in shape, to one that is composed of two intersecting parabolas in the principal stress plane.
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A Complete Perfectly Plastic Solution for the Mode I Crack Problem Under Plane Stress Loading Conditions
David J. Unger
David J. Unger
Mem. ASME
Department of Mechanical and Civil Engineering,
e-mail: du2@Evansville.edu
University of Evansville
, 1800 Lincoln Avenue, Evansville, IN 47722
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David J. Unger
Mem. ASME
Department of Mechanical and Civil Engineering,
University of Evansville
, 1800 Lincoln Avenue, Evansville, IN 47722e-mail: du2@Evansville.edu
J. Appl. Mech. May 2007, 74(3): 586-589 (4 pages)
Published Online: May 26, 2006
Article history
Received:
July 11, 2005
Revised:
May 26, 2006
Citation
Unger, D. J. (May 26, 2006). "A Complete Perfectly Plastic Solution for the Mode I Crack Problem Under Plane Stress Loading Conditions." ASME. J. Appl. Mech. May 2007; 74(3): 586–589. https://doi.org/10.1115/1.2338055
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