An enhanced isogeometric finite element method is developed to investigate the free vibration analysis as well as the linear flutter characteristics of finite square as well as skew …
The current investigation deals with the aeroelastic behavior of quadrilateral plates composed of Functionally Graded Carbon Nanotubes Reinforced Composites (FG-CNTRC) …
In this paper, porosity-dependent aero-hygro-thermal instability of functionally graded (FG) panels is investigated by developing a higher-order refined shear deformable theory for the …
In the present paper, an isogeometric analysis formulation along with the Nitsche technique is implemented based on the first order shear deformation plate theory to investigate the …
The present study, for the first time, investigates the vibration and flutter analyses of a doubly curved panel composed of functionally graded porous material contained by piezoelectric …
In this study, the optimization of free vibration and flutter analysis of a composite plate with the implementation of different boundary conditions is investigated. The governing …
C Li, Z Wan, X Wang, C Yang, K Li - Aerospace, 2024 - mdpi.com
Hypersonic vehicles are susceptible to considerable aerodynamic heating and noticeable aerothermoelastic effects during flight due to their high speeds. Functionally graded …
W Chen, H Dai, L Wang - AIAA Journal, 2019 - arc.aiaa.org
The dynamics of a two-material panel in supersonic flow is studied, with the aim of exploring the possibility of enhancing the stability of supersonic panels. The hybrid panel is …
In the present paper, the aero-thermo-elastic behavior of a finite (three-dimensional) cylindrical curved panel geometry made from functionally graded material under high …