Some experiences on reliability based aeroelastic analysis and optimization of long span bridges

Aitor Baldomir; Ibuki Kusano; Jose A. Jurado; Santiago Hernandez; AS Perez; EH Montez; LMG Martin; MDG Pulido

Some experiences on reliability based aeroelastic analysis and optimization of long span bridges

Aitor Baldomir, Ibuki Kusano, Jose A. Jurado, Santiago Hernandez, AS Perez, EH Montez, LMG Martin, MDG Pulido

Producció científica: Capítol de llibre › Contribució a congrés/conferència › Avaluat per experts

Resum

Flutter instability in suspension bridges is a critical design constraint. It has been demonstrated over the years that wind tunnel tests produce the more reliable results although there is uncertainty in their values. Thus a probabilistic analysis approach is more appropriate when dealing with this kind of structures. In this research the probability of failure against flutter is obtained considering the wind velocity at the bridge location as well as the points that define the flutter derivatives as random variables. A reliability-based design optimization (RBDO) is also formulated to obtain the minimum deck and cable weight that guaranties a target safety level against flutter. Three RBDO methods are implemented in this research (Reliability Index Approach, Performance Measure Approach and Sequential Optimization and Reliability Assessment) and they are applied to the case of the Messina Bridge Project.

Idioma original	Castellà
Títol de la publicació	4th International Conference On Mechanical Models In Structural Engineering (cmmost 2017)
Editors	VC Cardiel, MC Perez
Editor	Univ Politecnica Madrid
Pàgines	15-30
Nombre de pàgines	16
ISBN (electrònic)	978-84-17293-12-3
Estat de la publicació	Publicada - 2017
Publicat externament	Sí
Esdeveniment	4th International Conference on Mechanical Models in Structural Engineering (CMMoST) - Madrid, Spain Durada: 29 de nov. 2017 → 1 de des. 2017

Conferència

Conferència	4th International Conference on Mechanical Models in Structural Engineering (CMMoST)
País/Territori	Spain
Ciutat	Madrid
Període	29/11/17 → 1/12/17

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Com citar-ho

Baldomir, A., Kusano, I., Jurado, J. A., Hernandez, S., Perez, AS., Montez, EH., Martin, LMG., & Pulido, MDG. (2017). Some experiences on reliability based aeroelastic analysis and optimization of long span bridges. In VC. Cardiel, & MC. Perez (Ed.), 4th International Conference On Mechanical Models In Structural Engineering (cmmost 2017) (pàg. 15-30). Univ Politecnica Madrid.

@inproceedings{abaa26e32dc24541a2df069bc6f37b47,

title = "Some experiences on reliability based aeroelastic analysis and optimization of long span bridges",

abstract = "Flutter instability in suspension bridges is a critical design constraint. It has been demonstrated over the years that wind tunnel tests produce the more reliable results although there is uncertainty in their values. Thus a probabilistic analysis approach is more appropriate when dealing with this kind of structures. In this research the probability of failure against flutter is obtained considering the wind velocity at the bridge location as well as the points that define the flutter derivatives as random variables. A reliability-based design optimization (RBDO) is also formulated to obtain the minimum deck and cable weight that guaranties a target safety level against flutter. Three RBDO methods are implemented in this research (Reliability Index Approach, Performance Measure Approach and Sequential Optimization and Reliability Assessment) and they are applied to the case of the Messina Bridge Project.",

keywords = "Flutter derivatives, Optimization, Rbdo, Reliability, Suspension bridges",

author = "Aitor Baldomir and Ibuki Kusano and Jurado, \{Jose A.\} and Santiago Hernandez and AS Perez and EH Montez and LMG Martin and MDG Pulido",

year = "2017",

language = "Espa{\~n}ol",

pages = "15--30",

editor = "VC Cardiel and MC Perez",

booktitle = "4th International Conference On Mechanical Models In Structural Engineering (cmmost 2017)",

publisher = "Univ Politecnica Madrid",

note = "4th International Conference on Mechanical Models in Structural Engineering (CMMoST) ; Conference date: 29-11-2017 Through 01-12-2017",

}

Baldomir, A, Kusano, I, Jurado, JA, Hernandez, S, Perez, AS, Montez, EH, Martin, LMG & Pulido, MDG 2017, Some experiences on reliability based aeroelastic analysis and optimization of long span bridges. in VC Cardiel & MC Perez (ed.), 4th International Conference On Mechanical Models In Structural Engineering (cmmost 2017). Univ Politecnica Madrid, pàg. 15-30, 4th International Conference on Mechanical Models in Structural Engineering (CMMoST), Madrid, Spain, 29/11/17.

Some experiences on reliability based aeroelastic analysis and optimization of long span bridges. / Baldomir, Aitor; Kusano, Ibuki; Jurado, Jose A. et al.
4th International Conference On Mechanical Models In Structural Engineering (cmmost 2017). ed. / VC Cardiel; MC Perez. Univ Politecnica Madrid, 2017. pàg. 15-30.

Producció científica: Capítol de llibre › Contribució a congrés/conferència › Avaluat per experts

TY - GEN

T1 - Some experiences on reliability based aeroelastic analysis and optimization of long span bridges

AU - Baldomir, Aitor

AU - Kusano, Ibuki

AU - Jurado, Jose A.

AU - Hernandez, Santiago

AU - Perez, AS

AU - Montez, EH

AU - Martin, LMG

AU - Pulido, MDG

PY - 2017

Y1 - 2017

N2 - Flutter instability in suspension bridges is a critical design constraint. It has been demonstrated over the years that wind tunnel tests produce the more reliable results although there is uncertainty in their values. Thus a probabilistic analysis approach is more appropriate when dealing with this kind of structures. In this research the probability of failure against flutter is obtained considering the wind velocity at the bridge location as well as the points that define the flutter derivatives as random variables. A reliability-based design optimization (RBDO) is also formulated to obtain the minimum deck and cable weight that guaranties a target safety level against flutter. Three RBDO methods are implemented in this research (Reliability Index Approach, Performance Measure Approach and Sequential Optimization and Reliability Assessment) and they are applied to the case of the Messina Bridge Project.

AB - Flutter instability in suspension bridges is a critical design constraint. It has been demonstrated over the years that wind tunnel tests produce the more reliable results although there is uncertainty in their values. Thus a probabilistic analysis approach is more appropriate when dealing with this kind of structures. In this research the probability of failure against flutter is obtained considering the wind velocity at the bridge location as well as the points that define the flutter derivatives as random variables. A reliability-based design optimization (RBDO) is also formulated to obtain the minimum deck and cable weight that guaranties a target safety level against flutter. Three RBDO methods are implemented in this research (Reliability Index Approach, Performance Measure Approach and Sequential Optimization and Reliability Assessment) and they are applied to the case of the Messina Bridge Project.

KW - Flutter derivatives

KW - Optimization

KW - Rbdo

KW - Reliability

KW - Suspension bridges

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M3 - Contribución a congreso/conferencia

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BT - 4th International Conference On Mechanical Models In Structural Engineering (cmmost 2017)

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ER -