Elastic and Inelastic Analysis of Frames with a Force-Based Higher-Order 3D Beam Element Accounting for Axial-Flexural-Shear-Torsional Interaction
نویسندگان
چکیده
When one of the dimensions of a structural member is not clearly larger than the two orthogonal ones, engineers are usually compelled to simulate it with refined meshes of shell or solid finite elements that typically impose a large computational burden. The alternative use of classical beam theories, either based on Euler-Bernoulli or Timoshenko’s assumptions, will in general not accurately capture important deformation mechanisms such as shear, warping, distortion, flexural-shear-torsional interaction, etc. However, higher-order beam theories are a still largely disregarded avenue that requires an acceptable computational demand and simultaneously has the potential to account for the above mentioned deformation mechanisms, some of which can also be relevant in slender members. This chapter starts by recalling the main theoretical features of a recently developed higher-order beam element, which was combined for the first time with a force-based formulation. The latter strictly verifies the advanced form of beam equilibrium expressed in the governing differential equations. The main innovative theoretical aspects of the proposed element are accompanied by an illustrative application to members with linear elastic behaviour. In particular, the ability of the model to simulate the effect of different boundary conditions on the response of an axially loaded member is addressed, which is then followed by an application to a case where flexural-shear-torsional interaction takes place. The beam performance is assessed by comparison against refined solid finite element analyses, classical J.P. Almeida (&) École Polytechnique Fédérale de Lausanne, EPFL ENAC IIC EESD, GC B2 515 (Bâtiment GC), Station 18, 1015 Lausanne, Switzerland e-mail: [email protected] A.A. Correia Department of Structures, National Laboratory for Civil Engineering (LNEC), LNEC-DE/NESDE, Av. do Brasil 101, 1700-066 Lisbon, Portugal R. Pinho Department of Civil Engineering and Architecture, University of Pavia, c/o EUCENTRE, Via Ferrata 1, 27100, Pavia, Italy © Springer International Publishing AG 2017 M. Papadrakakis et al. (eds.), Computational Methods in Earthquake Engineering, Computational Methods in Applied Sciences 44, DOI 10.1007/978-3-319-47798-5_5 109 [email protected] beam theory results, and approximate numerical solutions. Finally, with a view to a future extension to earthquake engineering, an example of the element behaviour with inelastic response is also carried out.
منابع مشابه
Shear-Flexural Interaction in Analysis of Reduced Web Section Beams using VM Link Element
Reduced web section beams in shear-yielding moment-resistant steel frames are used for energy dissipating of earthquakes. The finite element analysis indicates that failure mode of these beams are governed by the combination of shear force and flexural moment. Therefore the analysis of frames with reduced web section beams needs consideration of shear-flexural interaction in those sections. In ...
متن کاملGeneralized Warping In Flexural-Torsional Buckling Analysis of Composite Beams
The finite element method is employed for the flexural-torsional linear buckling analysis of beams of arbitrarily shaped composite cross-section taking into account generalized warping (shear lag effects due to both flexure and torsion). The contacting materials, that constitute the composite cross section, may include a finite number of holes. A compressive axial load is applied to the beam. The...
متن کاملForce-based higher-order beam element with flexural-shear-torsional interaction in 3D frames. Part II: Applications
http://dx.doi.org/10.1016/j.engstruct.2014.10.028 0141-0296/ 2014 Elsevier Ltd. All rights reserved. ⇑ Corresponding author at: EPFL ENAC IIC EESD, GC B2 484 (Bâtiment GC), Station 18, 1015 Lausanne, Switzerland. E-mail addresses: [email protected] (J.P. Almeida), [email protected] (A.A. Correia), [email protected] (R. Pinho). 1 Address: LNEC-DE/NESDE, Av. do Brasil 101, 1700-066 Lisbon, Po...
متن کاملEvaluation of structural analysis of tunnel segmental lining using beam-spring method and force-method (Case study: Chamshir water conveyance tunnel)
The joints between segmental rings can withstand a certain amount of bending moment as well as axial and shear forces. Generally, in the structural analysis of tunnel segmental lining, the joints can be modeled as elastic hinges or rotational springs, and their rigidity should be demonstrated in terms of the rigidity of the joints or their rotational stiffness. Therefore, the bending moment act...
متن کاملA Super - Element Based on Finite Element Method for Latticed Columns Computational Aspect and Numerical Results
This paper presents a new super-element with twelve degrees of freedom for latticed columns. This elements is developed such that it behaves, with an acceptable approximation, in the same manner as a reference model does. The reference model is constructed by using many Solid elements. The cross section area, moments of inertia, shear coefficient and torsoinal rigidity of the developed new elem...
متن کامل