A Non-linear Theory of Thin-Walled Rods of Open Profile Deduced with Incremental Shell Equations

Tipo de material: Texto

TextoSeries ; In Recent Developments in the Theory of Shells. Springer, Cham., p.541-575, 2019Trabajos contenidos:

Scheidl, J
Vetyukov, Y

Tema(s):

SHELL EQUATIONS

Recursos en línea:

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Resumen: We study the structural behaviour of rods with thin-walled open cross-sections. Such members are best known for their low torsional rigidity and extensive warping deformation when subjected to twisting. Proceeding to large deformations one needs to account for the geometrically non-linear effects in the cross-section, that affect the structural response and prevent a simple generalisation of the linear theory. We here further elaborate a novel approach that utilizes the equations of incremental shell theory to quantify these non-linear effects and incorporate them into an augmented beam theory, which is then put to test on an example of a circularly curved rod. The linear deformation analysis reveals, that arbitrarily curved and straight rods do not share the same asymptotic behaviour. The torsional-flexural buckling loads obtained with the incremental beam theory correspond well to reference computations with shell finite elements, given that subcritical pre-deformations are negligible. The narration concludes with the post-buckling analysis using shell finite elements.

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Previous	B-17922 Numerical Analysis of Free Vibration of Laminated Thin-Walled Closed-Section Shell Structures	B-17923 Abnormal Buckling of Thin-Walled Bodies with Shape Memory Effects Under Thermally Induced Phase Transitions	B-17924 On the homogenization of nonlinear Shell	B-17925 A Non-linear Theory of Thin-Walled Rods of Open Profile Deduced with Incremental Shell Equations	B-17926 Buckling of Elastic Circular Plate with Surface Stresses	B-17927 Asymptotic Derivation of Nonlinear Plate Models from Three-Dimensional Elasticity Theory	B-17928 Selected Stability Problems of Thin-Walled Columns and Beams	Next

We study the structural behaviour of rods with thin-walled open cross-sections. Such members are best known for their low torsional rigidity and extensive warping deformation when subjected to twisting. Proceeding to large deformations one needs to account for the geometrically non-linear effects in the cross-section, that affect the structural response and prevent a simple generalisation of the linear theory. We here further elaborate a novel approach that utilizes the equations of incremental shell theory to quantify these non-linear effects and incorporate them into an augmented beam theory, which is then put to test on an example of a circularly curved rod. The linear deformation analysis reveals, that arbitrarily curved and straight rods do not share the same asymptotic behaviour. The torsional-flexural buckling loads obtained with the incremental beam theory correspond well to reference computations with shell finite elements, given that subcritical pre-deformations are negligible. The narration concludes with the post-buckling analysis using shell finite elements.

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