Dugdale plastic zone size and CTOD equations for the compact specimen
Copyright policy )Dugdale plastic zone size and CTOD equations for the compact specimen
With the aim of applying the Dugdale model to the compact specimen, the equations for stress intensity factor and crack surface displacement are obtained for a pair of pin loads and a uniform stress acting on a segment of the crack surface. The plastic zone size is calculated from the 'finiteness' condition of Dugdale, and the results agree well with collocation results from Terada (1983). The load that causes incipient yielding at the compression point of the compact specimen is calculated from a finite element strip yield analysis for an elastic-perfectly plastic material. The crack tip opening displacement for the compact specimen is calculated by adding the displacement at the tip of the physical crack length due to the pin load and due to the uniform stress. The results are within 1.5 percent of current collocation results.
- University of Missouri United States
- Langley Research Center United States
- National Aeronautics and Space Administration United States
- Missouri University of Science and Technology United States
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