A survey of several methods under the heading of strong formulation finite element method
(SFEM) is presented. These approaches are distinguished from classical one, termed weak …

A size-dependent inhomogeneous beam model, which accounts for the through-length
power-law variation of a two-constituent axially functionally graded (FG) material, is deduced …

In this work, we present Improved electromagnetism-like algorithm and Differential
quadrature technique as new efficient algorithms. Improved electromagnetism-like algorithm …

The manuscript investigates the dynamic properties of doubly-curved shell structures
laminated with innovative materials employing the Generalized Differential Quadrature …

To damp out spurious high‐frequency responses, time‐step integration algorithms for
structural dynamic analysis should have controllable numerical dissipation in the high …

Laminated doubly-curved shells constituted by innovative materials have become a
standard application in several engineering fields. However, this requires a proper …

Based on the three-dimensional theory of elasticity, the free vibration and bending analyses
of functionally graded graphene nanoplatelets-reinforced nanocomposite (FG-GPLRC) …

In the present study, thermal buckling and post-buckling analysis of Functionally Graded
Material (FGM) Timoshenko beams resting on a non-linear elastic foundation are examined …

Based on the differential quadrature (DQ) rule, the Gauss Lobatto quadrature rule and the
variational principle, a DQ finite element method (DQFEM) is proposed for the free vibration …

A novel beam model is derived to investigate the nonlinearized bending behaviors of a two-
dimensionally functionally graded (FG) beam based on the Euler–Bernoulli beam kinematic …