A simple and accurate generalized shear deformation theory for beams

J. L. Mantari; J. Yarasca

doi:10.1016/j.compstruct.2015.08.073

A simple and accurate generalized shear deformation theory for beams

J. L. Mantari, J. Yarasca

Science department

Research output: Contribution to journal › Article › peer-review

32 Scopus citations

Abstract

This paper presents a static analysis of functionally graded (FG) single and sandwich beams by using a simple and efficient 4-unknown quasi-3D hybrid type theory, which includes both shear deformation and thickness stretching effects. The governing equations and boundary conditions are derived by employing the principle of virtual works. Navier-type closed-form solution is obtained for several beams. New hybrid type shear strain shape functions for the inplane and transverse displacement were introduced in general manner to model the displacement field of beams. Numerical results of the present compact quasi-3D theory are compared with other quasi-3D higher order shear deformation theories (HSDTs).

Original language	English
Pages (from-to)	593-601
Number of pages	9
Journal	Composite Structures
Volume	134
DOIs	https://doi.org/10.1016/j.compstruct.2015.08.073
State	Published - 15 Dec 2015

Keywords

Analytical modeling
Beams
Bending
Elasticity

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10.1016/j.compstruct.2015.08.073

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abstract = "This paper presents a static analysis of functionally graded (FG) single and sandwich beams by using a simple and efficient 4-unknown quasi-3D hybrid type theory, which includes both shear deformation and thickness stretching effects. The governing equations and boundary conditions are derived by employing the principle of virtual works. Navier-type closed-form solution is obtained for several beams. New hybrid type shear strain shape functions for the inplane and transverse displacement were introduced in general manner to model the displacement field of beams. Numerical results of the present compact quasi-3D theory are compared with other quasi-3D higher order shear deformation theories (HSDTs).",

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AU - Mantari, J. L.

AU - Yarasca, J.

PY - 2015/12/15

Y1 - 2015/12/15

N2 - This paper presents a static analysis of functionally graded (FG) single and sandwich beams by using a simple and efficient 4-unknown quasi-3D hybrid type theory, which includes both shear deformation and thickness stretching effects. The governing equations and boundary conditions are derived by employing the principle of virtual works. Navier-type closed-form solution is obtained for several beams. New hybrid type shear strain shape functions for the inplane and transverse displacement were introduced in general manner to model the displacement field of beams. Numerical results of the present compact quasi-3D theory are compared with other quasi-3D higher order shear deformation theories (HSDTs).

AB - This paper presents a static analysis of functionally graded (FG) single and sandwich beams by using a simple and efficient 4-unknown quasi-3D hybrid type theory, which includes both shear deformation and thickness stretching effects. The governing equations and boundary conditions are derived by employing the principle of virtual works. Navier-type closed-form solution is obtained for several beams. New hybrid type shear strain shape functions for the inplane and transverse displacement were introduced in general manner to model the displacement field of beams. Numerical results of the present compact quasi-3D theory are compared with other quasi-3D higher order shear deformation theories (HSDTs).

KW - Analytical modeling

KW - Beams

KW - Bending

KW - Elasticity

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VL - 134

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EP - 601

JO - Composite Structures

JF - Composite Structures

ER -

A simple and accurate generalized shear deformation theory for beams

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Keywords

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