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Wave dispersion properties in imperfect sigmoid plates using various HSDTs

2019; Technopress; Volume: 33; Issue: 5 Linguagem: Inglês

10.12989/scs.2019.33.5.699

1598-6233

Belaid Batou, Mokhtar Nebab, Riadh Bennai, Hassen Ait Atmane, Abdeldjebbar Tounsi, Mohammed Bouremana,

Railway Engineering and Dynamics

In this paper, wave propagations in sigmoid functionally graded (S-FG) plates are studied using new Higher Shear Deformation Theory (HSDT) based on two-dimensional (2D) elasticity theory. The current higher order theory has only four unknowns, which mean that few numbers of unknowns, compared with first shear deformations and others higher shear deformations theories and without needing shear corrector. The material properties of sigmoid functionally graded are assumed to vary through thickness according sigmoid model. The S-FG plates are supposed to be imperfect, which means that they have a porous distribution (even and uneven) through the thickness of these plates. The governing equations of S-FG plates are derived employed Hamilton's principle. Using technique of Navier, differential equations of S-FG in terms displacements are solved. Extensive results are presented to check the efficient of present methods to predict wave dispersion and velocity wave in S-FG plates.