Sandwich beams comprising identical face sheets and a square honeycomb core were manufactured from carbon fiber composite sheets. Analytical expressions were derived for four competing collapse mechanisms of simply supported and clamped sandwich beams in three-point bending: core shear, face microbuckling, face wrinkling, and indentation. Selected geometries of sandwich beams were tested to illustrate these collapse modes, with good agreement between analytic predictions and measurements of the failure load. Finite element (FE) simulations of the three-point bending responses of these beams were also conducted by constructing a FE model by laying up unidirectional plies in appropriate orientations. The initiation and growth of damage in the laminates were included in the FE calculations. With this embellishment, the FE model was able to predict the measured load versus displacement response and the failure sequence in each of the composite beams.
Quasi-Static Three-Point Bending of Carbon Fiber Sandwich Beams With Square Honeycomb Cores
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Russell, B. P., Liu, T., Fleck, N. A., and Deshpande, V. S. (February 15, 2011). "Quasi-Static Three-Point Bending of Carbon Fiber Sandwich Beams With Square Honeycomb Cores." ASME. J. Appl. Mech. May 2011; 78(3): 031008. https://doi.org/10.1115/1.4003221
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