Best Practices for Road Weather Management Version 2.0
Title:
Wind-Induced Vibration of Stay Cables
Abstract:
Cable-stayed bridges have become the form of choice over the past several decades for bridges in the medium- to long-span range. In some cases, serviceability problems involving large amplitude vibrations of stay cables under certain wind and rain conditions have been observed. This study was conducted to develop a set of consistent design guidelines for mitigation of excessive cable vibrations on cable-stayed bridges. To accomplish this objective, the project team started with a thorough review of existing literature to determine the state of knowledge and identify any gaps that must be filled to enable the formation of a consistent set of design recommendations. This review indicated that while the rain/wind problem is known in sufficient detail, galloping of dry inclined cables was the most critical wind-induced vibration mechanism in need of further experimental research. A series of wind tunnel tests was performed to study this mechanism. Analytical and experimental research was performed to study mitigation methods, covering a range of linear and nonlinear dampers and crossties. The study also included brief studies on live load-induced vibrations and establishing driver/pedestrian comfort criteria. Based on the above, design guidelines for mitigation of wind-induced vibrations of stay cables were developed.
Source(s):
HNTB Corporation, John Hopkins University, Rowan Williams Davies and Irwin, Inc. and Buckland and Taylor, Ltd.; prepared for the FHWA Office of Infrastructure R&D; Publication No. FHWA-RD-05-083
https://www.fhwa.dot.gov/publications/research/infrastructure/bridge/05083/
Date: 2007
Author:
Kumarasena, Jones, Irwin, Taylor
Keywords:
Wind
Rain
Precipitation
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