Optimal design of composite laminates with and without cutout undergoing free vibration

Abstract: In this article, the optimal designs of freely vibrating composite laminates with and without cutout undergoing are investigated. A simple higher order shear deformation theory (HSDT) with four unknown displacements (u 0 , v 0 , w b , w s ) is employed to obtain the vibration response. A C 1 continuity shear flexible element based on HSDT using the Hermite cubic polynomial is used for the rectangular element. The optimisation exercise is performed using genetic algorithms to maximise the fundamental frequency … Show more

“…It was reported that first mode natural frequencies were considerably increased when the hole size ratio was increased. Iyengar and Prasad [18] studied optimal design of composite laminates with and without cutouts undergoing free vibration. The aspect ratio of the laminate, fiber orientation, thickness of plies and modulus were treated as design variables in the optimization process.…”

Natural frequency response of laminated hybrid composite beams with and without cutouts

“…It was reported that first mode natural frequencies were considerably increased when the hole size ratio was increased. Iyengar and Prasad [18] studied optimal design of composite laminates with and without cutouts undergoing free vibration. The aspect ratio of the laminate, fiber orientation, thickness of plies and modulus were treated as design variables in the optimization process.…”

Natural frequency response of laminated hybrid composite beams with and without cutouts

Optimizing frequencies of skew composite laminates with metaheuristic algorithms

Fundamental frequency optimization of variable stiffness composite skew plates