A static analysis of three-dimensional functionally graded beams through hierarchical one-dimensional finite elements

Authors

G. Giunta, and S. Belouettar

Reference

AIP Conference Proceedings, vol. 1648, art. no. 780008, 2015

Description

In this paper, the static response of three-dimensional beams made of functionally graded materials is investigated through a family of hierarchical one-dimensional finite elements. A wide variety of elements is proposed differing by the kinematic formulation and the number of nodes per elements along the beam axis. Elements’ stiffness matrix and load vector are derived in a unified nuclear form that does not depend upon the a priori expansion order over the cross-section nor the finite element approximation along the beam axis. Results are validated towards three-dimensional finite element models as well as equivalent Navier-type analytical solutions. The numerical investigations show that accurate and efficient solutions (when compared with full three-dimensional FEM solutions) can be obtained by the proposed family of hierarchical one-dimensional elements family.

Link

doi:10.1063/1.4912988

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