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Forced motion of cylindrical shells
Exact, formal solution is presented for dynamic response of circular cylindrical shell of finite length subjected to time-dependent, arbitrarily distributed surface loading; solution accounts for effects of shear deformation and rotatory inertia as well as membrane, bending and translational inertia effects; theory is applied to case of freely supported shell subjected to moving shock, pressure discontinuity; solution obtained is compared to corresponding solution within framework of W.Fluegge shell theory, and significant differences are noted for shells of moderate thickness.
Forced motion of cylindrical shells
Exact, formal solution is presented for dynamic response of circular cylindrical shell of finite length subjected to time-dependent, arbitrarily distributed surface loading; solution accounts for effects of shear deformation and rotatory inertia as well as membrane, bending and translational inertia effects; theory is applied to case of freely supported shell subjected to moving shock, pressure discontinuity; solution obtained is compared to corresponding solution within framework of W.Fluegge shell theory, and significant differences are noted for shells of moderate thickness.
Forced motion of cylindrical shells
ASCE -- Proc (J Eng Mechanics Div)
Reismann, H. (author) / Medige, J. (author)
1968
16 pages
Article (Journal)
English
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