A probabilistic method for the buckling assessment of stiffened composite shells
Abstract
A method is described to computationally simulate probabilistic buckling behavior of multilayered composite shells. The simulation accounts for all naturally-occurring uncertainties including those in constituent (fiber/matrix) material properties, fabrication variables, and structure geometry. The method is demonstrated for probabilistically assessing the buckling survivability of a specific case of a stiffened composite cylindrical shell with and without cutouts. The sensitivities of various uncertain variables on the buckling survivability are evaluated at specified reliability. The results show that the buckling survivability for a shell without cutouts depends primarily on shell skin related uncertainties. However, stringer related uncertainties become important for a shell with cutouts.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- July 1993
- Bibcode:
- 1993STIN...9413379S
- Keywords:
-
- Buckling;
- Composite Structures;
- Cylindrical Shells;
- Numerical Analysis;
- Probability Theory;
- Fiber Composites;
- Openings;
- Simulation;
- Structural Analysis;
- Structural Mechanics