Abstract
In Egypt, where highway bridges are to be constructed on soft cohesive soils, the bridge abutments are usually founded on rigid piles, whereas the earth embankments for the bridge approaches are directly founded on the natural soft ground. Consequently, excessive differential settlement frequently occurs between the bridge deck and the bridge approaches resulting in a “bump” at both ends of the bridge deck. Such a bump not only creates a rough and uncomfortable ride but also represents a hazardous condition to traffic. One effective technique to cope with the bump problem is to use a reinforced concrete approach slab to provide a smooth grade transition between the bridge deck and the approach pavement. Investigating the geotechnical and structural performance of approach slabs and revealing the fundamental affecting factors have become mandatory. In this paper, a 2-D finite element model is employed to investigate the performance of approach slabs. Moreover, an extensive parametric study is carried out to appraise the relatively optimum geometries of approach slab, i.e. slab length, thickness, embedded depth and slope, that can yield permissible bumps. Different geo-mechanical conditions of the cohesive foundation soil and the fill material of the bridge embankment are examined.
Highlights
As a result of the current increase in urban development, construction activities have become of essential need in areas of crucial geotechnical conditions, such as construction of highway bridges on soft ground
Whenever a highway bridge has to be constructed on thick layers of soft cohesive subsoil, the bridge abutments are usually founded on rigid piled foundations
During the bridge lifetime, consolidation and creep of soft ground below the approach embankments can result in excessive differential settlement between the bridge deck and the adjoining approach pavement
Summary
As a result of the current increase in urban development, construction activities have become of essential need in areas of crucial geotechnical conditions, such as construction of highway bridges on soft ground. The fundamental function of approach slabs is to provide a smooth grade transition between the bridge deck and the approach pavement, so that the potential differential settlements can be quite diminished. Their use may result merely in moving a controlled bump from the end of the bridge to the end of the approach slab. Clear guidelines for approach slabs design considering the approach embankment settlements have become essentially required In this regard, the numerical analysis technique will be employed in this research study, through a 2-D finite element model, to investigate the performance of bridge approach slabs.
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