Testing and long-term monitoring of a curved concrete box girder bridge

Gomez, Hugo C.; Fanning, Paul; Feng, Maria Q.; Lee, Sungchil

doi:10.1016/j.engstruct.2011.05.026

Cited by 64 publications

(34 citation statements)

References 23 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…While some studies from literature showed that the stiffness of concrete bridge was reduced over time [7] [8] [11], others authors detected an increase [3] [4] or attacked the issue numerically [12]. Our observations of the above-mentioned sample bridge and the measurement of its first 3 eigenfrequencies show in general a decrease over the years.…”

Section: Introductionmentioning

confidence: 48%

A Study of Temperature and Aging Effects on Eigenfrequencies of Concrete Bridges for Health Monitoring

Nguyễn¹,

Mahowald²,

Schommer³

et al. 2017

ENG

View full text Add to dashboard Cite

This paper discusses the influence of environmental factors and of normal material aging on the eigenfrequencies of concrete bridges based on monitoring data registered during 4 years of a specific bridge. It is a new composite steel-concrete bridge built in 2006 in Luxembourg. The measurements are analyzed and compared to literature data. The final objective is the use of real monitored eigenfrequencies for structural health monitoring and damage detection based on identification of stiffness losses in practical applications. Therefore, it is very important to identify and compensate for outdoor influences namely temperature, excitation force level and normal aging effects, like creep and shrinkage of concrete and their impact on material properties. The present paper aims at describing these effects in order to separate them from damage effects. It is shown that temperature change rates and temperature gradients within the bridge have an influence on the eigenfrequencies. Hence the key idea for assessment from the full database is to select only measurements with small temperature differences and slow temperature change rates.

show abstract

Section: Introductionmentioning

confidence: 48%

A Study of Temperature and Aging Effects on Eigenfrequencies of Concrete Bridges for Health Monitoring

Nguyễn¹,

Mahowald²,

Schommer³

et al. 2017

ENG

View full text Add to dashboard Cite

show abstract

“…While abrupt changes in the dynamic properties of bridges are usually caused by a destructive event such as an earthquake, previous studies on long-term monitoring showed the natural frequencies of bridge structures follow a gradual and approximately linear decrease over the years (Soyoz and Feng 2009;Gomez, et al 2011). Such effects cannot be disregarded in an accurate structural health condition assessment.…”

Section: Modal Identificationmentioning

confidence: 92%

Health Diagnostics of Highway Bridges Using Vibration Response Data

Feng

Gomez²,

Zampieri

2013

Health Assessment of Engineered Structures

Self Cite

View full text Add to dashboard Cite

“…Currently, these methods are frequently used (e.g. Altunisik, Bayraktar, & Sevim, 2011;Brincker, Zhang, & Andersen, 2001;Gomez, Fanning, Feng, & Lee, 2011;Hadson, 1977;Jacobsen, Andersen, & Brincker, 2008;Maalek, Akbari, & Ziaei-Rad, 2010;Peeters & Ventura, 2003;Rodrigues, Brincker, & Andersen, 2004;Ubertini, Gentile, & Materazzi, 2013;Wenzel, 2009). Thus, in this study, through performing several operational modal tests and subsequent use of the well-known enhance frequency domain decomposition (EFDD) method, the dynamic characteristics of an urban bridge before, during and after widening have been identified.…”

Section: Introductionmentioning

confidence: 94%

Monitoring the dynamic characteristics of an urban bridge before, during and after widening

Maadani

Akbari

Maalek

2014

Structure and Infrastructure Engineering

View full text Add to dashboard Cite

The dynamic characteristics of a multi-span pre-stressed concrete urban bridge before, during and after widening operations have been studied. The widening operations have been carried out by adding two new bridges on the either sides of the old bridge. The decks of the new bridges have been structurally separated from the old one by two longitudinal joints on the either side of the old bridge. The dynamic characteristics have been extracted from operational modal tests in three phases during different stages of the widening operations. The dynamic interaction between the new parts and the old part of the bridge has also been investigated. The results show that after the completion of the widening works, and when the whole bridge was placed in service condition, this interaction affects the natural frequencies of almost all the vibration modes of the bridge. It was also found that the longitudinal joints were unable to effectively isolate the new parts from the old part. Finally, in order to achieve a consistent behaviour in the first bending mode of the new and old bridges, a geometrical index has been introduced. This index includes both the effects of stiffness and mass properties of the bridge deck. In widening projects, where the span lengths, material properties and support conditions of the two bridges are taken the same, adopting equal geometrical indices leads to almost equal values of the natural frequencies and similar mode shapes in the first bending mode. The proposed index can be used in the initial design stage for such projects.

show abstract

Testing and long-term monitoring of a curved concrete box girder bridge

Cited by 64 publications

References 23 publications

A Study of Temperature and Aging Effects on Eigenfrequencies of Concrete Bridges for Health Monitoring

A Study of Temperature and Aging Effects on Eigenfrequencies of Concrete Bridges for Health Monitoring

Health Diagnostics of Highway Bridges Using Vibration Response Data

Monitoring the dynamic characteristics of an urban bridge before, during and after widening

Contact Info

Product

Resources

About