How Lateral Bracing is Used for New and Rehabilitated Composite I-Girder Bridges across Europe and North America

Abstract

Something as simple as the use of lateral bracing for a steel I-girder bridge should be consistent across the globe. However, an investigation into the bridge standards of different countries in Europe and North America revealed little to no consistency in how and why lateral bracing is specified or detailed. Most design codes recognize that adding lateral bracing—the diagonal bracing between the bottom flanges of a typical I-girder bridge superstructure—changes the load path of an I-girder bridge sufficiently to mimic the increased stiffness and fatigue life performance of a much more expensive steel box beam superstructure. Still, lateral bracing is rarely used or, if used, not accounted for in the structural capacity of the structure. This is often because the maximum benefit is found with superstructures with few deep girders in the cross section, and far less benefit is seen for shallower multigirder cross sections. Additionally, accounting for the structural benefit of the lateral bracing increases the complexity of the bridge analysis model and precludes the use of simplified line-girder methods. For these reasons, the investigation showed that even when lateral bracing is used for reasons such as construction stability, it is rarely accounted for as a primary load carrying member in new structures. Since the inclusion of lateral bracing provides no structural benefit but also adds dead load and structural analysis complexity, most agencies attempt to eliminate lateral bracing from their structures and simply increase the capacity of the I-girders. However, for existing two-girder composite bridges, an approach is presented in which the careful addition of a new or structural consideration of existing bottom lateral bracing on an existing two I-girder superstructure could improve the live load distribution and reduce fatigue live load stress ranges sufficiently enough for the structure to remain in service without further structural strengthening.