الفهرس | Only 14 pages are availabe for public view |
Abstract ii Composite materials have been developed more rapidly than metals in <structural applications. They are used alternatively instead of metallic materials because of their low density, high strength and rigidity. Functionally graded materials (FGMs) are advanced composite materials consist of two or more constituents with a controlled compositional gradient in one or two directions of the structure. The idea of FGMs enables tailoring the mechanical, thermal, and chemical properties of materials by comprising different properties. The present work aims at introducing a new proposed functionally graded technique to produce new and robust functionally graded fiber reinforced polymer-matrix composites. The proposed new technique was applied to fabricate unidirectional glass fib er/epoxy innovative functionally graded composite laminates with total fib er volume fraction of 39.9% and 6 mm thickness by changing the ply fib er volume fraction across the thickness through varying the normal distance between adjacent fib er bundles during the fabrication process. The mechanical characteristics (tensile, flexural, in-plane shear, flexural fatigue and impact) of the fabricated FG composites were obtained experimentally. The effect of the layer stacking sequence on the mechanical properties of the fabricated FG was investigated and discussed. |