In this paper the e,ect of random geometric imperfections on the limit loads of isotropic, thin-walled, cylindrical shells under deterministic axial compression is presented. Therefore, a concept for the numerical prediction of the large scatter in the limit load observed in experiments using direct Monte Carlo simulation technique in context with the Finite Element method is introduced. Geometric imperfections are modeled as a two dimensional, Gaussian stochastic process with prescribed second moment characteristics based on a data bank of measured imperfections. (The initial imperfection data bank at th
The important role of initial imperfections on decreasing the buckling load of imperfection sensitiv...
The dynamic buckling load of stochastically imperfect finite right circular cylindrical shells subje...
The interest in the characterization of the safety and the robustness of design of thin-walled cylin...
In this paper the effect of random geometric imperfections on the critical load of isotropic, thin-w...
AbstractIn the present paper, the effect of random non-uniform axial loading on the buckling behavio...
One possible avenue that may improve design against buckling is to recognise and account for the ran...
In this paper a stochastic model of random imperfections of cylindrical shells is presented. For thi...
The important role of imperfections on decreasing the buckling load of structural cylinders has been...
International audienceDiscreprencies observed in experimental buckling loads related to thin shells ...
AbstractIn this paper, the effect of material and thickness spatial variation on the buckling load o...
The important role of imperfections on decreasing the buckling load of structural cylinders has been...
Thin-walled unstiffened cylindrical composite shells are prone to buckling. The structural behavior ...
AbstractStability of imperfect elastic cylindrical shells which are subjected to uniform axial compr...
The buckling strength of axially loaded cylindrical shells is greatly affected by geometric imperfec...
The worst geometric imperfection is a mathematical concept which should deliver in theory a lower bo...
The important role of initial imperfections on decreasing the buckling load of imperfection sensitiv...
The dynamic buckling load of stochastically imperfect finite right circular cylindrical shells subje...
The interest in the characterization of the safety and the robustness of design of thin-walled cylin...
In this paper the effect of random geometric imperfections on the critical load of isotropic, thin-w...
AbstractIn the present paper, the effect of random non-uniform axial loading on the buckling behavio...
One possible avenue that may improve design against buckling is to recognise and account for the ran...
In this paper a stochastic model of random imperfections of cylindrical shells is presented. For thi...
The important role of imperfections on decreasing the buckling load of structural cylinders has been...
International audienceDiscreprencies observed in experimental buckling loads related to thin shells ...
AbstractIn this paper, the effect of material and thickness spatial variation on the buckling load o...
The important role of imperfections on decreasing the buckling load of structural cylinders has been...
Thin-walled unstiffened cylindrical composite shells are prone to buckling. The structural behavior ...
AbstractStability of imperfect elastic cylindrical shells which are subjected to uniform axial compr...
The buckling strength of axially loaded cylindrical shells is greatly affected by geometric imperfec...
The worst geometric imperfection is a mathematical concept which should deliver in theory a lower bo...
The important role of initial imperfections on decreasing the buckling load of imperfection sensitiv...
The dynamic buckling load of stochastically imperfect finite right circular cylindrical shells subje...
The interest in the characterization of the safety and the robustness of design of thin-walled cylin...