Experimental investigation and probabilistic analysis of the load carrying capability of cylindrical shells subject to multiaxial loading
March 1, 2022
February 28, 2025
The load carrying capability of axially loaded cylindrical shells is mainly driven by deviations from the ideal geometry and load application. Therefore, a multitude of publications suggest probabilistic design approaches in order to account for the stochastic imperfection for the design of cylindrical shells. For other types of loading like torsion and bending the load carrying capability is less sensitive. The distribution of the buckling load for these types of loading and especially for combined loading has not been investigated so far. The objective of this research project is to determine the stochastic distribution of the load carrying capability of cylindrical shells subject for various load combinations. This will be done by buckling experiments and probabilistic simulations. Based on the results, a probabilistic design approach for multiaxially loaded cylindrical shells will be developed. The investigations will be carried out for combinations of axial compression and torsion as well as axial compression and bending. In order to investigate the influence of slenderness and anisotropy, fibre composite cylinders as well as stiffened and unstiffened isotropic cylinders will be tested and analysed.