Abstract This study examines the well-known issue of evaluating the flutter probability for a long-span bridge, necessary for assessing structural integrity and reliability. The motivation stems from the need for critically reviewing and investigating a number of existing numerical approaches (e.g., random perturbation analysis, collocation methods, Galerkin approach) for the modeling and the solution of stochastic dynamic problems, by adapting them to the specific problem. The study proposes a generalized formulation for stochastic bridge flutter in terms of random eigenvalue analysis. A 1200 m suspension bridge model is used in the numerical simulations to compare the various methods and to provide indications on advantages and limitation...
In this work, a physics-based first-order reliability method (FORM) algorithm is proposed for the fl...
The main focus of this paper is to show the Computational Fluid Dynamic (CFD) potentiality about the...
Long-span cable supported bridges are prone to aerodynamic instabilities caused by wind and this phe...
In the present study, a reliability analysis of the Hardanger Bridge was performed, by assessing the...
This paper presents the flutter derivatives (FDs) extracted from a stochastic system identification ...
The phenomenon of aerodynamic instability caused by the wind is usually a major design criterion for...
The Hardanger Bridge has recently been constructed in Norway. The main span is 1310 m, and since the...
Abstract. Large-scale engineering structures subjected to severe wind loadings inherently suffer mod...
The paper studies the intense oscillations sustained by the Volgogradsky Bridge on May 20, 2010. The...
The present work is a study of the aeroelastic stability limit of the Hålogaland Bridge. The state-o...
Response of flexible structures — such as cable-supported bridges and aircraft wings — is associated...
The risk of large-amplitude vibrations of bridge hangers due to galloping instabilities has posed a ...
The estimated response of large-scale engineering structures to severe wind loads is prone to modell...
The field of fluid-structure interaction is combined with the field of stochastics to perform a stoc...
We present a probabilistic methodology for designing tuned mass dampers for flutter suppression in l...
In this work, a physics-based first-order reliability method (FORM) algorithm is proposed for the fl...
The main focus of this paper is to show the Computational Fluid Dynamic (CFD) potentiality about the...
Long-span cable supported bridges are prone to aerodynamic instabilities caused by wind and this phe...
In the present study, a reliability analysis of the Hardanger Bridge was performed, by assessing the...
This paper presents the flutter derivatives (FDs) extracted from a stochastic system identification ...
The phenomenon of aerodynamic instability caused by the wind is usually a major design criterion for...
The Hardanger Bridge has recently been constructed in Norway. The main span is 1310 m, and since the...
Abstract. Large-scale engineering structures subjected to severe wind loadings inherently suffer mod...
The paper studies the intense oscillations sustained by the Volgogradsky Bridge on May 20, 2010. The...
The present work is a study of the aeroelastic stability limit of the Hålogaland Bridge. The state-o...
Response of flexible structures — such as cable-supported bridges and aircraft wings — is associated...
The risk of large-amplitude vibrations of bridge hangers due to galloping instabilities has posed a ...
The estimated response of large-scale engineering structures to severe wind loads is prone to modell...
The field of fluid-structure interaction is combined with the field of stochastics to perform a stoc...
We present a probabilistic methodology for designing tuned mass dampers for flutter suppression in l...
In this work, a physics-based first-order reliability method (FORM) algorithm is proposed for the fl...
The main focus of this paper is to show the Computational Fluid Dynamic (CFD) potentiality about the...
Long-span cable supported bridges are prone to aerodynamic instabilities caused by wind and this phe...