Stress Distribution Around a Central Crack in a Plate Loaded in Tension ; Effect of Finite Width of Plate

J. R. Dixon

doi:10.1017/S0368393100072266

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The purpose of the work was to investigate the effect of the finite width of plate on the elastic-stress distribution due to a central crack in a flat plate loaded in tension.

The range of investigation: (i) Two-dimensional photoelastic tests were carried out on flat-plate specimens. The photoelastic specimens were geometrically similar to the 10 in. wide fatigue specimens used by Frost and Dugdale, with the central crack simulated by a slot bounded by holes of small radii, (ii) A theoretical solution of the problem was derived and compared with the present and other photoelastic results.

It is shown that the effect of the crack-length/plate-width ratio on the elastic-stress concentration at the head of the crack can be expressed by the following formulae:

References

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Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Dixon, J. R. 1962. Stress Distribution Around Edge Slits in a Plate Loaded in Tension —the Effect of Finite Width of Plate. The Journal of the Royal Aeronautical Society, Vol. 66, Issue. 617, p. 320.

Gerberich, William 1962. Stress distribution about a slowly growing crack determined by photoelastic-coating method. Experimental Mechanics, Vol. 2, Issue. 12, p. 359.

Papirno, Ralph 1962. Stress Concentrations in Tensile Strips with Central Notches of Varying End Radii. The Journal of the Royal Aeronautical Society, Vol. 66, Issue. 617, p. 323.

GERARD, GEORGE 1963. RESIDUAL TENSILE STRENGTH OF CRACKED STRUCTURAL ELEMENTS. AIAA Journal, Vol. 1, Issue. 5, p. 1175.

DALLY, J.W. RILEY, W.F. and DANIEL, I.M. 1963. Photoelasticity. p. 77.

BOYD, E. A. 1963. SHAPE OF THE POROUS TWO-DIMENSIONAL HYPERSONIC SAIL. AIAA Journal, Vol. 1, Issue. 5, p. 1177.

Dixon, J. R. and Strannigan, J. S. 1964. Effect of Plastic Deformation on the Strain Distribution around Cracks in Sheet Materials. Journal of Mechanical Engineering Science, Vol. 6, Issue. 2, p. 132.

Dixon, J. R. 1965. Stress and strain distributions around cracks in sheet materials having various work-hardening characteristics. International Journal of Fracture Mechanics, Vol. 1, Issue. 3, p. 224.

Dixon, J. R. and Strannigan, J. S. 1965. Strain Distributions around Cracks in Ductile Sheets during Loading and Unloading. Journal of Mechanical Engineering Science, Vol. 7, Issue. 3, p. 312.

Mitchell, L. H. 1966. Stress-Concentration Factors at a Doubly-Symmetric Hole. Aeronautical Quarterly, Vol. 17, Issue. 2, p. 177.

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Becker, H. and Papirno, R. 1968. Viscoelastic stress-concentration factors. Experimental Mechanics, Vol. 8, Issue. 2, p. 88.

Zinkham, R.E. and Dedrick, J.H. 1969. Fracture of Metals. p. 299.

Liebowitz, H. 1969. Engineering Fracture Design. p. 113.

Daniel, I.M. 1970. Photoelastic Study of Crack Propagation In Composite Models. Journal of Composite Materials, Vol. 4, Issue. 2, p. 178.

Hunter, Alvin R. 1970. Photoelasto-plastic analysis of notched-bar configuration subjected to bending. Experimental Mechanics, Vol. 10, Issue. 7, p. 281.

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Frost, N.E. Pook, L.P. and Denton, K. 1971. A fracture mechanics analysis of fatigue crack growth data for various materials. Engineering Fracture Mechanics, Vol. 3, Issue. 2, p. 109.

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Stress Distribution Around a Central Crack in a Plate Loaded in Tension ; Effect of Finite Width of Plate

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