Abstract
This paper examines the scour problems related to piers-on-bank bridges resulting from frequently flooded and/or constricted waterways. While local scour problems for bridge piers in riverine channels have been addressed extensively in the literature, there have been few studies addressing piers-on-bank scour scenarios. A comprehensive three-dimensional finite element analysis using the element removal (ER) technique has been performed on a recently constructed bridge with an observable scour problem on multiple piers. The analysis is further extended to study the effect of “combined scour” or extensive erosion of soil between adjacent piles. Three different loading cases were considered in the study, and the results demonstrated that the effects of local and combined scours on bridge drilled shaft foundations can be significant under the combined actions of axial, lateral loads and bending moments. Specifically, the most critical case of combined scour is when maximum moment effect is applied to the piers. The results of this study show that the interaction of soil displacement fields between adjacent piles should be investigated for bridge crossings with piers-on-bank, with a high risk of flooding during the moderate-to-low probability of the occurrence of precipitation events, as they can increase the pile head displacements and the bending moments in the soil and result in the early failure of bridges.
Highlights
Publisher’s Note: MDPI stays neutralFlooding and other hydraulic causes of bridge failure are of prime concern all over the world
This study is to investigate the effects of the potential widening of local scour holes on further extended to investigate the effects of the potential widening of local scour holes pile behavior
The objective of the present study is to investigate the potential effects of scenarios and the results arebridge presented the premature scours on the piers.within
Summary
Flooding and other hydraulic causes of bridge failure are of prime concern all over the world. Most researchers would differentiate between the impacts of scour on the lateral behavior of piles as either cohesive or non-cohesive soil cases [8,12,13] This is because scour hole formation (mass losses surrounding a bridge pier) in cohesionless soil can attain maximum depth within a few days, whereas, in cohesive soils, this process can take months or even years. This study is further extended vestigate the effects of local scour around the single pier located on banks. The scour problem for piers-on-bank is usually lips Road bridge in Charlotte, North Carolina. Different scenarios and simulated the results the are local and combined scours between two adjacent piers-on-bank for three different loading presented within. The overall width of the bridge deck is 15.5 m
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