STABILITY OF A COMPOSITE LOAD-BEARING CYLINDER UNDER TORSION CONSIDERING THE EFFECT OF TENSILE FORCES

Abstract

This article presents a theoretical analysis of the stability of a composite load-bearing cylinder subjected to torsion while taking into account the effect of tensile forces acting in both the axial and circumferential directions. The analysis is based on the ring forces occurring in a cylindrical shell. In solving this problem, a coordinate system was employed in which the deflection function was assumed to represent the helical wave pattern that develops after the loss of stability. For a clearer understanding of the results, numerical data are presented and discussed.

Keywords

cylinder, stability, function, results, equation, shell, boundary conditions, strength, torsion, Poisson’s ratio, analogous systems, elasticity, approximations, table, drum, values, longitudinal direction.

References

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