Thermo-elastodynamic study of the nanocomposite circular sector plates exposed to swift thermal shock: Fid-Bau Portal

Thermo-elastodynamic study of the nanocomposite circular sector plates exposed to swift thermal shock

Han, Huixuan / Liu, Yuxiao / Muhsen, Sami / Ali, H. Elhosiny / Moretti, Enzo

Abstract Owing to ruinous effects of thermal shocks on the nanocomposite structures, this study scrutinizes the thermal shock resistance of the poroelastic nanocomposite circular sector plates in the scheme of elasticity theory and application of the harmonic differential quadrature approach (HDQA). Due to the fact that the related studies published priorly were just able to predict the response of the simply-supported plates, the current research would be considered as the first study on the transient thermal shock response of the above-mentioned plates with fully-clamped boundary conditions. To determine the system’s time-dependent response, differential equations are translated to the Laplace domain. Then, the modified declaration of the Dubner and Abate’s technique is exploited to derive the time realization of the system’s response from the Laplace domain. The validation procedure of the current analysis is performed by comparing the outcomes with those claimed in the published researches. In order to clearly assess the system’s shock resistance against the abrupt thermal load, effect of various parameters such as thermal relaxation time (TRT), different scattering models and volume fraction of the nano reinforcement, boundary conditions, intensity of the shock, poroelastic properties of the nanocomposite, and radius to thickness ratio of the sector plate on the thermo-elastodynamic response of the system are investigated. It is revealed that the sensitivity of the system’s response to increase of TRT subsides when TRT is over an upper bond.

Highlights • HDQA shows a rapid convergence rate with an optimum computational effort. • Undrained poroelastic mode of system shows promoted thermo-elastodynamic behavior. • Sensitivity of the system’s response to TRT becomes negligible when TRT is high.