Load-displacement behavior of glass fiber/epoxy composite plates with circular cut-outs subjected to compressive load

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Abstract

An experimental study of the behavior of woven glass fiber/epoxy composite laminated panels under compression is presented. Compression tests were performed on to 16 fiber-glass laminated plates with and without circular cut-outs using the compressed machine. The maximum load of failure for each of the glass-fiber/epoxy laminated plates under compression has been determined experimentally. A parametric study was performed as well to investigate the effects of varying the centrally located circular cut-out sizes and fiber angle-ply orientations on to the ultimate load. The experimental work revealed that as the cut-out size increases, the maximum load of the composite plate decreases. Also, it has been observed that cross-ply laminates possess the greatest ultimate load as compared to other types of ply stacking sequences and orientations. © 2009 Elsevier Ltd. All rights reserved.

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Aljibori, H. S. S., Chong, W. P., Mahlia, T. M. I., Chong, W. T., Edi, P., Al-qrimli, H., … Zahari, R. (2010). Load-displacement behavior of glass fiber/epoxy composite plates with circular cut-outs subjected to compressive load. Materials and Design, 31(1), 466–474. https://doi.org/10.1016/j.matdes.2009.07.005

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