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| Title: | OPTIMIZING FUNCTIONALLY GRADED MATERIALS PLATE
TOPOLOGY FOR THERMAL-AERODYNAMIC FLUTTER RESISTANCE |
| Authors: | Mohamed E Fayed, Mohammad Tawfik, A A El Desouky, Ehab Ali and Mourad S Semary |
| Year: | 2025 |
| Keywords: | Functionally Graded Materials, Panel Flutter, Finite Element Analysis, Topology Optimization, Nickel Distribution |
| Journal: | International Journal of Mechatronics and Applied Mechanics |
| Volume: | 1 |
| Issue: | 19 |
| Pages: | 280-290 |
| Publisher: | Not Available |
| Local/International: | International |
| Paper Link: | Not Available |
| Full paper | Mohamed Elsayed Mohamed Fayed_pag.-280-290_OPTIMIZING-FUNCTIONALLY-GRADED-MATERIALS-PLATE-TOPOLOGY-FOR-THERMAL-AERODYNAMIC-FLUTTER-RESISTANCE.pdf |
| Supplementary materials | Not Available |
| Abstract: |
This study investigates the optimization of functionally graded Nickel-Aluminum plates under combined thermal and aerodynamic loading conditions, with a specific focus on panel flutter resistance. The study implements polynomial functions for material distribution optimization, contributing to the ongoing research in aerospace structural design methodologies. Through finite element analysis implemented in MATLAB with a 9×9 node distribution, we examined plates with clamped boundary conditions on all edges, achieving significant improvements in performance characteristics compared to homogeneous reference cases |
