Add to ORKGThe influence of flow and structural uncertainties on the reliability of a panel interacting with a supersonic flow are studied. First, the probability of failure of a panel with deterministic structural properties is computed by means of a conditional reliability analysis based on a first-passage formulation. Then an unconditional reliability analysis is performed in order to include the effects of structural uncertainties . Two sensitivity-based methods, the perturbation method and the fast integration method, are used to compute the unconditional probability of failure
A stochastic finite element method is developed to study the reliability of structures such as beams...
The numerical simulation of multiphysics problems has grown steadily in recent years. This developme...
The numerical simulation of multiphysics problems has grown steadily in recent years. This developme...
The influence of flow and structural uncertainties on the reliability of a panel interacting with a ...
The influence of flow and structural uncertainties on the reliability of a panel interacting with a ...
The influence of flow and structural uncertainties on the reliability of a panel interacting with a ...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
Aeroelastic flutter is a dangerous failure mode, and aircraft structural components are designed und...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
The field of fluid-structure interaction is combined with the field of stochastics to perform a stoc...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
The field of fluid-structure interaction is combined with the field of stochastics to perform a stoc...
A stochastic finite element method is developed to study the reliability of structures such as beams...
The numerical simulation of multiphysics problems has grown steadily in recent years. This developme...
The numerical simulation of multiphysics problems has grown steadily in recent years. This developme...
The influence of flow and structural uncertainties on the reliability of a panel interacting with a ...
The influence of flow and structural uncertainties on the reliability of a panel interacting with a ...
The influence of flow and structural uncertainties on the reliability of a panel interacting with a ...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
Aeroelastic flutter is a dangerous failure mode, and aircraft structural components are designed und...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
The field of fluid-structure interaction is combined with the field of stochastics to perform a stoc...
Fluid–structure interactions provide design constraints in many fields, yet methods available for th...
The field of fluid-structure interaction is combined with the field of stochastics to perform a stoc...
A stochastic finite element method is developed to study the reliability of structures such as beams...
The numerical simulation of multiphysics problems has grown steadily in recent years. This developme...
The numerical simulation of multiphysics problems has grown steadily in recent years. This developme...