Amar Khaled scite author profile

Experimental data from static and dynamic tests on [Formula: see text] direct models of simply supported, one- and two-cell, box girder bridges are presented. Variation of flexural and torsional stiffnesses and dynamic characteristics, such as the natural frequency of vibrations and damping ratios of the bridge models at different levels of cracking damage, are examined; in turn, these dynamic characteristics can be used to estimate the cracking damage in the bridge. The physical model proved to be an adequate tool for the study of static and dynamic responses of box girder bridges at all load levels. Key words: box girder bridges, direct physical models, damping ratio, flexural and torsional stiffnesses, level of cracking damage, load–deformation response, load distribution characteristics, longitudinal and transverse strains, natural frequency of vibrations, simulated OHBDC truck.

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Integration of site condition information using geographic information system for seismic risk reduction for bridge network

Farzam

Nollet

Khaled

2021

Georisk: Assessment and Management of Risk for Engineered Syste

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Amar Khaled

Cyclic Testing of Large-Scale Rectangular Bridge Columns under Bidirectional Earthquake Components

Effectiveness of the 30%-rule at predicting the elastic seismic demand on bridge columns subjected to bi-directional earthquake motions

An experimental study of static and dynamic responses of prestressed concrete box irder bridges

Integration of site condition information using geographic information system for seismic risk reduction for bridge network

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