Analytical Model for Frictional Resistance between Cable and Saddle of Suspension Bridges Equipped with Vertical Friction Plates

Abstract

AbstractFor multispan suspension bridges, frictional resistance between the main cables and the saddles is essential for counterpoising unbalanced cable tension between different spans. The use of friction plates in saddles is one of the most common methods for increasing frictional resistance, and the corresponding evaluation method is vital for the design of suspension bridges. In this study, an analytical model for the calculation of frictional resistance between cables and saddles is presented. Large-scale model tests were performed to simulate the realistic friction conditions of a typical multispan suspension bridge in China, namely the Yingwuzhou Yangtze River Bridge, to validate the model. The main components of frictional resistance were analyzed, and the effects of vertical friction plates in enhancing frictional resistance were investigated by model tests and theoretical analyses. The results indicate that the presented analytical model provides an effective and feasible tool for evaluating the...