Mohamed, H.Gunasekaran, V.Jeyaraj, J.Vasudevan, V.Kotriwar, G.Manickam, G.2026-02-042023Mechanics of Advanced Materials and Structures, 2023, 30, 14, pp. 2806-282515376494https://doi.org/10.1080/15376494.2022.2064014https://idr.nitk.ac.in/handle/123456789/22224In this work, a comprehensive investigation of curvilinear fiber reinforcement on damping of rectangular and skew composite plates is computationally estimated using higher-order shear flexible model. A set of governing equilibrium equations developed here in form of eigenvalue analysis is solved by adopting the Q-R algorithm. The damping factors associated with different vibrational modes are evaluated from the complex eigenvalues. The proposed model is validated against the available analytical and experimental results. The damping capability of laminated rectangular/skew composite plates is thoroughly analyzed by varying the curvilinear fiber path angles in the layers, lay-up orientations, structural boundary conditions, skew angle of the laminate, and nature of the material. Results reveal that the damping pretending to the curvilinear fibers plate is better than the conventional composite laminate; it varies significantly according to the variation in center and edge of the curvilinear fiber angles. It is also noted that the damping increases with the skew angle of the plate. The study conducted here shows the suitability of such variable stiffness composite structure for safe design under dynamic/impact loading situation. © 2022 Taylor & Francis Group, LLC.Eigenvalues and eigenfunctionsFibersLaminated compositesRectangular plateReinforcementStiffnessComposite laminateCurvilinear fibersDeformable modelsHigh-orderHigh-order shear deformable modelHigher-orderInherent dampingRectangular platesSkew platesVariable stiffnessVariable stiffness composite laminateDamping