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Öğe Buckling analysis of laminated composite plates with a central hole in different geometric shapes(Fırat Üniversitesi, 2017) Deniz, Mehmet EminIn this study, the buckling behaviors of E-glass/epoxy composite plates with a central hole in different geometric shapes for different boundary conditions will be analyzed. For the analyzes, ratio between thickness and length of the specimen (L/t = 20, 30, 40, 50) and two different laminae orientation angles such as [0o /90o ] 4 and [(0o /90o )2] S parameters will be considered. The buckling behavior of laminated composite plates subjected to axial compressive load using a finite element method package program such as ANSYS will be analyzed. The analyzes will be carried out for three different boundary conditions: clamped-clamped support, clamped-fixed support and fixed-fixed support. Thus, the L/t ratio and laminae orientation angle effects on the buckling behavior of composite plates for different boundary conditions will be investigated. The obtained analyze results show that different L/t ratios and laminae orientation angles have significant effects on the buckling load of composite plates. In additon, the hole shape also affects the buckling loadÖğe Effect of hole geometry and matrix material on buckling behavior of composite plates(Fırat Üniversitesi, 2017) Deniz, Mehmet EminIn this study, the buckling behavior of E-glass/epoxy, E-glass/polyester and E-glass/vinylester based composite plates with fiber orientation of [0o /90o ] 4 will be determined experimentally. Test specimens prepared according to the ASTM standards. All buckling tests were performed using a Shimadzu brand tensile machine with load capacity of ± 250 kN. Some of the specimens consist hole and some do not. The specimens with hole have different geometrical shapes and also same hole area. The specimens were subjected to axial compressive load until buckling failure occurred. From the obtained test results, it was shown that the hole geometry and matrix materials have significant effects on the buckling load of the laminated composite plates.
