12/7/2023 0 Comments Earman river bridge failure![]() While Wardhana studied three periods of bridge failures in the United States the statistics are representative of bridge failures around the world in all years. Also, human-induced external events occurred frequently in all three periods, but were most dominant in the first and third periods. Comparison made among three periods of similar studies (1977–1981, 1982–1988, and 1989–2000) revealed almost similar trends, with most failures occurring during the bridge’s service life. Other frequent principal causes are design, detailing, construction, material, and maintenance. Bridge overload and lateral impact forces from trucks, barges/ships, and trains constitute 20% of the total bridge failures. Flood and scour, with the major flood disaster in 1993, contributed to the frequency peak of bridge failures (almost 53% of all failures). They state “The most frequent causes of bridge failures were attributed to floods and collisions. Wardhana, et al., studied over 500 failures of bridge structures in the United States between 19 with the age of the failed bridges ranging from 1 year (during construction) to 157 years, having an average age of 52 years. In research work on the frequency and causes of bridge failures K. The direct failure of bridges is the result a number of factors to include structural over loading, material failures, poor designs, faulty construction, inadequate oversite and control of bridge construction, inadequate inspections, delayed maintenance, earthquakes, and flooding. A bridge failure is most often the result of some failure in the life cycle of a bridge from concept through design, construction and maintenance during its service life. But bridges do fail for a number of reasons. One of the challenges for infrastructure owners of large national networks of highway and railroad bridges is maintaining the performance of the bridges over their designed service life without the risk of failure. While analyzing the causes of bridge deterioration and the processes that contribute to bridge failures the goal of this chapter is to provide a better understanding how bridges deteriorate to minimize failures in the future and to build better bridges. The second result is insufficient systematic analysis of bridge failures, their causes, and how to prevent them. The causes of bridge failures can be traced back to human error in the life cycle of the bridge. ![]() The research in this chapter produced two significant findings. By looking at basic bridge types and their components, the focus of research in this chapter examines seven bridges failures and the conditions that led up to their failures. Bridge deterioration is caused by many factors, to include increased service loads, deicing chemicals, and aggressive environmental conditions. Bridge deterioration and the risk of failure is a continuing challenge for transportation infrastructure owners. While rare, bridge failures can have devastating consequences with loss of life. The purpose of this chapter is to present research on bridges failures, the conditions that produce structural failures in bridges, and to better understand the processes that impact and degrade the performance and service life of bridges.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |