M.M.S. Vilar scite author profile

This paper proposes a numerical solution to deep beams using the layerwise displacement theory. Most of the methods for performing structural analyses of deep beams have geometric and boundary conditions limitations, as well as modeling inconveniences. This paper provides a finite element solution for deep beams based on a layerwise displacement field considering the full stress/strain tensors. In this formulation, the cross section is discretized in a pre-defined number of independent virtual layers, with linear interpolation within the thickness direction. To validate the model developed, two numerical examples are analyzed. The first is a reinforced concrete deep beam with two supports, loaded over the top face, validated by finite element analysis based on solid-element ABAQUS TM software. Next, an isotropic deep beam with both ends cantilevered is analyzed and the outcome is compared to the literature. The results of both numerical examples are accurate and can estimate the complete state of stress over all domains of the element. Moreover, the layerwise formulation does not suffer from shear and membrane locking, and it may use fewer computational resources than equivalent 3D finite element analyses.

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Analytical plane-stress recovery of non-prismatic beams under partial cross-sectional loads and surface forces

Vilar

Masjedi

Hadjiloizi

2022

Engineering Structures

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Analytical interlaminar stresses of composite laminated beams with orthotropic tapered layers

Vilar

Masjedi

Hadjiloizi

2023

Composite Structures

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M.M.S. Vilar

Stress analysis of generally asymmetric non-prismatic beams subject to arbitrary loads

Finite elements numerical solution to deep beams based on layerwise displacement field

Analytical plane-stress recovery of non-prismatic beams under partial cross-sectional loads and surface forces

Analytical interlaminar stresses of composite laminated beams with orthotropic tapered layers

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