Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10259/8675
Título
Experimental verification of a beam element for thin-walled beams with torsion, distortion, and shear lag
Autor
Publicado en
Engineering Structures. 2022, V. 261, 114249
Editorial
Elsevier
Fecha de publicación
2022-06
ISSN
0141-0296
DOI
10.1016/j.engstruct.2022.114249
Résumé
Beam-type elements based on the theories of Euler–Bernoulli, Timoshenko, and Vlasov are widely used in civil engineering. However, shell and solid finite elements are often used when the effects on normal stresses of either shear deformation or distortion are considered important. Numerically validated in an earlier study with finite element models for shell-type structures, the same one-dimensional finite element model is further developed in this study with a low number of degrees of freedom per node that includes all the structural mechanisms without using 3D finite element models. Laboratory testing of an instrumented steel box girder is conducted, to improve validation of the goodness of fit of the finite element model with real structural behavior.
Palabras clave
Thin-walled beams
Warping
Torsion
Distortion
Shear lag
Finite-element method
Box girder
Bridge deck
Experimental verification
Materia
Ingeniería civil
Civil engineering
Resistencia de materiales
Strength of materials
Versión del editor
Aparece en las colecciones
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