Stochastic stability analysis of steel tubes with random initial imperfections

Abstract

In this paper, the effect of initial geometric imperfections on the buckling load of steel tubes (relatively thick cylindrical shells) under axial load and lateral pressure is investigated. The geometric imperfections are modeled as a 2D-1V non-homogeneous Gaussian stochastic field simulated using the spectral representation method. The evolutionary power spectrum of the non-homogeneous field is derived from available experimental measurements using the recently proposed method of separation. For the determination of the limit load variability of the tubes, a stochastic formulation based on Monte Carlo simulation is implemented. It is shown that the imperfections can lead to a substantial reduction of the buckling load and thus should be taken into account via a realistic description through stochastic field modeling.