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A study of the plastic buckling of axially compressed cylindrical shells with a thick-shell theory

✍ Scribed by G Lu; Renjie Mao

Publisher
Elsevier Science
Year
2001
Tongue
English
Weight
122 KB
Volume
43
Category
Article
ISSN
0020-7403

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✦ Synopsis

A thick shell theory is used to calculate the critical load of plastic buckling of axially compressed cylindrical shells. The buckling equations are derived with the principle of virtual work on the basis of a transverse shear deformable displacement ΓΏeld. The deformation theory of plasticity is used for constitutive equations. To ΓΏt the uniaxial stress-strain curve, the Ramberg-Osgood equation is used. In the numerical examples special attention is paid to the dependence of the buckling mode on the ratios of radius to thickness R=h and length to radius L=R. This dependence divides the (R=h; L=R)-plane into simply connected regions each of which corresponds to a buckling mode. These regions form a "buckling mode map".

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The present paper is a review article on the problem of buckling of moderately thick, laminated, composite shells subjected to destabilizing loads. The loads consist of uniform axial compression, uniform lateral pressure and torsion applied individually or in combination. In all the works reported i