A WKB analysis of the buckling condition for a cylindrical shell of arbitrary thickness subjected to an external pressure |
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Authors: | Sanjarani Pour M. |
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Affiliation: | Mathematics Department, Science College, Sistan and Balochestan University, Zahedan, Iran |
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Abstract: | We consider the plane-strain buckling of a cylindrical shellof arbitrary thickness which is made of a Varga material andis subjected to an external hydrostatic pressure on its outersurface. The WKB method is used to solve the eigenvalue problemthat results from the linear bifurcation analysis. We show thatthe circular cross-section buckles into a non-circular shapeat a value of µ1 which depends on A1/A2 and a mode number,where A1 and A2 are the undeformed inner and outer radii, andµ1 is the ratio of the deformed inner radius to A1. Inthe large mode number limit, we find that the dependence ofµ1 on A1/A2 has a boundary layer structure: it is constantover almost the entire region of 0 < A1/A2 < 1 and decreasessharply from this constant value to unity as A1/A2 tends tounity. Our asymptotic results for A1 1 = O(1) and A1 1 = O(1/n) are shown to agree with the numerical resultsobtained by using the compound matrix method. |
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Keywords: | WKB method singular perturbation finite elasticity buckling of tubes. |
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