The wave based method (WBM) is used to analyze the free vibration characteristics of
functionally graded material (FGM) cylindrical shell with arbitrary boundary conditions. The …

This paper describes a general formulation for free, steady-state and transient vibration
analyses of functionally graded shells of revolution subjected to arbitrary boundary …

A simple yet efficient solution approach based on the Haar wavelet is presented for the free
vibration analysis of functionally graded (FG) cylindrical shell. The first-order shear …

A higher-order isoparametric superelement is developed to study the vibration of functionally
graded shells of revolution. The effective material properties of functionally graded materials …

Doubly curved shallow shells, common in aerospace and civil engineering, pose significant
challenges in predicting bending responses due to their complex geometry and material …

The paper proposes a new concept for the Functionally Graded Autoclaved Concrete
(FGAAC) and provides a numerical model to describe its mechanical behaviour. The model …

The aim of this paper is to extend the modified Fourier‐Ritz approach to evaluate the free
vibration of four‐parameter functionally graded moderately thick cylindrical, conical …

The weight function method provides a powerful approach for calculating the stress intensity
factors for a homogeneous cracked body subjected to mechanical loadings. In this paper …

This paper presents an analytical solution based on the Haar wavelet method for
investigation of vibration behavior of a functionally graded porous cylinder of finite length …

In this paper, a novel numerical method based on the Walsh series (WS) is proposed for free
vibrations of functionally graded material (FGM) cylindrical shells. Based on the first order …