Application of Optimality Criterion to Fiber-Reinforced Composites.
AIR FORCE FLIGHT DYNAMICS LAB WRIGHT-PATTERSON AFB OHIO
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AYYA,V. B. Johnson,C. D. Tischler,V. A. AFFDL-TR-73-6composite materials, optimization, airframes, composite materials, aluminum, boron, epoxy resins, fibers, alignment, wings, panels, weight, numerical analysis, laminatesfinite element analysis, fiber compositesThis report presents an efficient optimization method, based on an optimality criterion and a numerical search, for the minimum weight design of structures made from boronepoxy composite materials. A RECURRENCE RELATION IS DERIVED AND IS INCORPORATED INTO THE COMPUTER PROGRAM BASED ON THE DISPLACEMENT METHOD OF FINITE ELEMENT ANALYSIS. The optimum design procedure takes into consideration multiple loading conditions and displacement constraints on the structure. Several sample problems consisting of both isotropic and composite elements are solved and the results are presented. Author, modified-PL
- Laminates and Composite Materials