Add to ORKGAn evaluation of the importance of geometrically nonlinear effects on the structural static analysis of steel cable-stayed bridges is presented. A finite element model is analyzed using linear, pseudo-linear and nonlinear methods. The pseudo-linear approach is based on the modified elastic modulus. The nonlinear analysis involves cable sag, large displacement and beam-column effects. The results confirm that both cable sag and large displacement originate the most important nonlinear effects in those structures. Beam-column effects are irrelevant for service loads. Both the pseudo-linear approach and the modified modulus element prove to be very limited or even inappropriate.http://www.sciencedirect.com/science/article/B6V28-4M6SB97-4/1/de2...
This paper presents a family of finite elements for the nonlinear static and dynamic analysis of cab...
In the present study, a practical approach is proposed for geometric nonlinear analysis of existing ...
In this paper, an efficient analysis method considering both geometric and material nonlinearities i...
In this paper an analysis of the nonlinear static behaviour of cable systems is developed by assumin...
Large structures are widely used in the modem construction industry for infra-structure facilities d...
AbstractCable suspended structures undergo large displacements under loading. The nonlinear response...
The paper is aimed to investigate the influence of localized or distributed structural weakening on ...
A generalized numerical model for predicting the structural integrity of self-anchored cable-stayed ...
This paper is concerned about the study of cable-stayed bridges having three spans with double plane...
As pontes estaiadas são exemplos de estruturas esbeltas e flexíveis onde a capacidade de utilização ...
Geometric nonlinearity of self-anchored cable-stayed suspension bridges is studied in this paper. Th...
Copyright © 2013 Wang Hui-Li et al. This is an open access article distributed under the Creative Co...
Geometric nonlinear static analysis of structural systems with cable elements is carried out using p...
ABSTRACT: Most bridge structures are analysed using linear elastic theory. Results from such an anal...
Abstract:- The cable stayed bridges represent key points in transport networks and their seismic beh...
This paper presents a family of finite elements for the nonlinear static and dynamic analysis of cab...
In the present study, a practical approach is proposed for geometric nonlinear analysis of existing ...
In this paper, an efficient analysis method considering both geometric and material nonlinearities i...
In this paper an analysis of the nonlinear static behaviour of cable systems is developed by assumin...
Large structures are widely used in the modem construction industry for infra-structure facilities d...
AbstractCable suspended structures undergo large displacements under loading. The nonlinear response...
The paper is aimed to investigate the influence of localized or distributed structural weakening on ...
A generalized numerical model for predicting the structural integrity of self-anchored cable-stayed ...
This paper is concerned about the study of cable-stayed bridges having three spans with double plane...
As pontes estaiadas são exemplos de estruturas esbeltas e flexíveis onde a capacidade de utilização ...
Geometric nonlinearity of self-anchored cable-stayed suspension bridges is studied in this paper. Th...
Copyright © 2013 Wang Hui-Li et al. This is an open access article distributed under the Creative Co...
Geometric nonlinear static analysis of structural systems with cable elements is carried out using p...
ABSTRACT: Most bridge structures are analysed using linear elastic theory. Results from such an anal...
Abstract:- The cable stayed bridges represent key points in transport networks and their seismic beh...
This paper presents a family of finite elements for the nonlinear static and dynamic analysis of cab...
In the present study, a practical approach is proposed for geometric nonlinear analysis of existing ...
In this paper, an efficient analysis method considering both geometric and material nonlinearities i...