Abstract
Strain distributions to failure, tensile and compressive strain-concentration factors, and strength-reduction factors were determined for glass-, boron-, and graphite-epoxy plates with holes loaded in tension. Strain gages, photoelastic coatings and moiré techniques were used. Ten variations of layup and stacking sequence were studied.
The boron-epoxy composite was found to be the stiffest and strongest of the three. The graphite laminate with the highest stress concentration and the most linear strain response exhibited the highest strength-reduction factor. In all cases, the maximum strain at failure on the hole boundary was higher than the ultimate tensile-coupon strain.
In general, it was found that, the higher the stress-concentration factor, the higher the strength-reduction factor. Thus, the [0/90/0/90]s layup with a stress-concentration factor of 4.82 had a strength-reduction factor of 3.18. At the other extreme, the most flexible layup [±45/±45]s with the lowest stress-concentration factor of 2.06 had the lowest strength-reduction factor of 1.10.
Stacking sequences associated with the tensile interlaminar normal stress or high interlaminar shear stress near the boundary, resulted in laminates 10 to 20 percent weaker than corresponding alternate stacking sequences. Furthermore, it was found that stacking-sequence variations can alter the mode of failure from catastrophic to noncatastrophic.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Lekhnitskii, S. G., “Theory of Elasticity of Anisotropic Elastic Body,”Tran. by P. Fern, Ed. by J. J. Brandstatter Holden-Day, Inc., San Francisco (1963).
Savin, G. N., “Stress Concentrations Around Holes,” Pergamon Press (1961).
Lackman, L. M. and Ault, R. M., “Mollifying Stress Fields by Using Filamentary Composite Materials,” Advances in Structural Composites, SAMPE,12 (Oct. 1967).
Wennagel, G. J., Mason, P. W. and Rosenbaum, J. D., “Ideas, Integrated Design and Analysis System,” Paper No. 680728, SAE, Aeronautical and Space Engn. and Manufacturing Meeting, Los Angeles, (Oct. 7–11, 1968).
Puppo, A. and Haener, J., “Application of Micromechanics to Joints and Cutouts,” U. S. Army Aviation Materiel Lab. Report No. 69–25 (April 1969).
Barker, M. B., Dana, J. R. and Pryor, C. W., “Stress Concentrations Near Holes in Laminates,” presented at the ASCE Specialty Conference on Composite Materials, Pittsburgh (Nov. 1972).
Rybicki, E. F. and Hopper, A. T., “Analytical Investigation of Stress Concentrations Due to Holes in Fiber-Reinforced Plastic Laminated Plates, Three-Dimensional Models,” Air Force Materials Lab. Report, AFML-TR-73-100 (June 1973).
Greszczuk, L. B., “Stress Concentrations and Failure Criteria for Orthotropic and Anisotropic Composite Plates with Circular Openings,” Composite Materials: Testing and Design (Second Conference), ASTM STP 497 (1972).
Waddoups, M. E., Eisenmann, J. R. andKaminiski, B. E., “Macroscopic Fracture Mechanics of Advanced Composite Materials,”J. of Composite Materials,5,446–454 (Oct. 1971).
Waszczak, J. P. and Cruse, T. A., “Failure Mode and Strength Predictions of Anisotropic Bolt Bearing Specimens,” AIAA Paper No. 71-354, AIAA/ASME 12th Structural Dynamics and Materials Conference, Anaheim, CA (April 19–21, 1971).
Daniel, I. M. andRowlands, R. E., “Determination of Strain Concentration in Composites by Moiré Techniques,”J. of Comp. Mat.,5,250–254 (April 1971).
Rowlands, R. E., Daniel, I. M. andWhiteside, J. B., “Stress and Failure Analysis of a Glass-Epoxy Plate with a Hole,”Experimental Mechanics,13(1),31–37 (1973).
Daniel, I. M., Rowlands, R. E. and Whiteside, J. B., “Deformation and Failure of Boron-Epoxy Plate with Circular Hole,” Analysis of Test Methods for High Modulus Fibers and Composites, ASTM STP 521 (1973).
Rowlands, R. E., Daniel, I. M. and Whiteside, J. B., “Mechanical Behavior of a Graphite-Epoxy Laminate Containing a Hole,” presented at Sixth St. Louis Symposium on Composite Materials, St. Louis (May 1972).
Daniel, I. M., Rowlands, R. E. andPost, D., “Strain Analysis of Composites by Moiré Methods,”Experimental Mechanics,13(6),246–252 (1973).
Pagano, N. J. andPipes, R. B., “The Influence of Stacking Sequence on Laminate Strength,”J. Comp. Mat.,5,50–57 (Jan. 1971).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Daniel, I.M., Rowlands, R.E. & Whiteside, J.B. Effects of material and stacking sequence on behavior of composite plates with holes. Experimental Mechanics 14, 1–9 (1974). https://doi.org/10.1007/BF02324853
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF02324853