posted on 2011-07-14, 13:44authored byAndrew WatsonAndrew Watson, Patrick Fenner, C.A. Featherston, David Kennedy
The panel analysis and optimization code VICONOPT, based on exact strip theory, is
utilized to investigate the postbuckling stability of a stiffened aerospace panel in a torsional
buckled state. The paper shows that the postbuckling characteristics of a panel buckling in
a torsional mode has similarity to the postbuckling behavior of a panel with a skin initiated
mode and a panel initiated mode. The postbuckled stiffness of the torsional mode is similar
to the skin mode in terms of load versus end shortening and is similar to the panel
postbuckling behavior in terms of load versus out-of-plane deflection. If the panel has
stiffeners of more than one size then there are multiple torsional modes. For panel design it
is suggested that small stiffener buckling, i.e., in a torsional mode, can have postbuckling
stability with regard to the growth of the out-of-plane deflection. If the large stiffeners
initiate the buckling then there is no postbuckling reserve of strength. This has implications
for design of such panels as mass could be saved if allowance is made for small stiffener
buckling in the optimization process.
History
School
Aeronautical, Automotive, Chemical and Materials Engineering
Department
Aeronautical and Automotive Engineering
Citation
WATSON, A. ... et al, 2009. Postbuckled stability of panels with torsional buckling. Session 64-SDM-41: 50th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Palm Springs, USA, 4th-7th May.