Shear Stress Solutions for Curved Beams: A Structural Analysis Approach

Shear Stress Solutions for Curved Beams: A Structural Analysis Approach

The shear stress on isotropic curved beams with compact sections and variable thickness is investigated. Two new solutions, based on Cook's proposal and the mechanics of materials approach, were developed and validated using computational finite element models (FEM) for four typical cross-secti...

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Veröffentlicht in:Materials 2024-12, Vol.17 (23), p.5982
Hauptverfasser: Guillén-Rujano, Renny, Contreras, Victor, Palencia-Díaz, Argemiro, Velilla-Díaz, Wilmer, Hernández-Pérez, Adrián
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Aluminum
Aspect ratio
Bending stresses
Composite materials
Cross-sections
Curved beams
Finite element method
Load
Mathematical models
Mechanics
Shear stress
Strain gauges
Stress analysis
Structural analysis
Variable thickness
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Beschreibung
Zusammenfassung:The shear stress on isotropic curved beams with compact sections and variable thickness is investigated. Two new solutions, based on Cook's proposal and the mechanics of materials approach, were developed and validated using computational finite element models (FEM) for four typical cross-sections (rectangular, circular, elliptical, and triangular) used in civil and mechanical structures, constituting a novel approach to predicting shear stresses in curved beams. They predict better results than other reported equations, are simpler and easier for engineers to use quickly, and join the group of equations found using the theory of elasticity, thereby expanding the field of knowledge. The results reveal that both equations are suitable to predict the shear stress on a curved beam with outer/inner radii ratios in the interval 1
ISSN:1996-1944
1996-1944
DOI:10.3390/ma17235982