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Dynamic investigation of a hybrid suspension and cable-stayed bridge

✍ Scribed by Paultre, P.; Proulx, J.; B�gin, T.

Publisher
John Wiley and Sons
Year
2000
Tongue
English
Weight
166 KB
Volume
29
Category
Article
ISSN
0098-8847

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✦ Synopsis

Ambient and forced vibration tests were carried out on the Beauharnois bridge, a unique, 177-m combined suspension and cable-stayed structure near Montreal, Canada. A rehabilitation program was completed on the bridge during which the deck was completely rebuilt with an orthotropic slab on two steel trusses. The rehabilitation program also included the addition of two pairs of stay cables on both towers, creating a hybrid suspension system.

The paper presents a series of dynamic tests performed to evaluate the dynamic properties and the dynamic ampli"cation factor (DAF) for the rehabilitated bridge. The experimental program involved the measurement of vertical, transverse, and longitudinal acceleration responses of the deck and tower under ambient and controlled tra$c loads. Displacement, strain, and integrated acceleration DAFs were computed under di!erent loading conditions. Modal properties were evaluated and used to correlate a threedimensional "nite element model for the bridge, including non-linear cable behaviour. The paper discusses the experimental setup as well as the techniques used to evaluate vibration frequencies, mode shapes, and the DAF. Correlation of numerical dynamic properties and experimental results is also presented.

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