An Explicit Stiffness Matrix for Parabolic Beam Element

An Explicit Stiffness Matrix for Parabolic Beam Element

Abstract This study is devoted to strain-based formulation for a curved beam. Arches with parabolic geometry, which have a variety of applications, belong to this structural type. Dependency of the curvature radius to the arch length creates some complexities in the solution process. To analyze thes...

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Veröffentlicht in:Latin American journal of solids and structures 2016-09, Vol.13 (9), p.1782-1801
Hauptverfasser: Rezaiee-Pajand, Mohammad, Rajabzadeh-Safaei, Niloofar
Format: Artikel
Sprache:eng
Schlagworte:
ENGINEERING, CIVIL
ENGINEERING, MECHANICAL
equilibrium conditions
explicit stiffness matrix
Finite element method
MECHANICS
parabolic beam
strain-based formulation
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Zusammenfassung:Abstract This study is devoted to strain-based formulation for a curved beam. Arches with parabolic geometry, which have a variety of applications, belong to this structural type. Dependency of the curvature radius to the arch length creates some complexities in the solution process. To analyze these complex structures, a two-node beam with six degrees of freedom is suggested by utilizing closed-form solution and the stiffness-based finite element method. Considering the effect of shear deformation, and incorporating equilibrium conditions into the finite element model, lead to the exact strains. Displacements and explicit stiffness matrix are found based on these exact strains. To validate the efficiency of the author's formulation, seven numerical tests are performed. The outcomes demonstrate that by employing only a single element, the locking-free answers can be found.
ISSN:1679-7825
1679-7825
DOI:10.1590/1679-78252820