NTL Record

Title Seismic Performance of Stone Masonry and Unreinforced Concrete Railroad Bridge Piers
Record ID 79177
Personal Name
Creator
Gui, Qiang; Ma, Z. John; Bennett, Richard; Clarke, David B.
Corporate Creator University of Tennessee. Department of Civil and Environmental Engineering
Corporate
Contributor
National University Rail Center (NURail); United States. Department of Transportation. Office of the Assistant Secretary for Research and Technology; United States. Department of Transportation. University Transportation Centers (UTC) Program
Publisher National University Rail Center (NURail)
Publication Date 20200109
Language English
Abstract Numerous railroad bridge structures in the United States were constructed more than 100 years ago. With railroad infrastructure aging quickly, there is a push to reuse existing substructures while replacing entire superstructures. Often, these substructures are unreinforced concrete (URC) or unreinforced masonry (URM). In order for these URC or URM elements to be accepted for an extended design life, they must be evaluated for their ability to withstand seismic loading. The research objective of this project is to investigate the mechanism of the behavior, especially failure modes, of the URM and URC piers that are subject to earthquake loads and propose mitigation or retrofit methods for these types of structures. Compared to highway bridges, railroad bridges typically have better seismic performance. The track system is considered a contributor to this better performance because it can act as a restraint against horizontal movement of the superstructure during earthquakes. Based on the observation on the URC and URM railroad bridge piers in previous earthquakes, the authors find that the behavior of this type of pier is prone to include sliding and rocking, which are typical rigid body motions. Thus, this study proposes to simplify the railroad piers into a single-body or into stacked multi-body rigid block systems with a horizontal restraint at the top and understand the behavior of this type of system when subjected to various ground motions.
Rosap ID dot:54569
Rosap URL https://rosap.ntl.bts.gov/view/dot/54569
TRT Terms Bridge piers; Bridge superstructures; Earthquake resistant design; Masonry bridges; Railroad bridges; Railroad tracks; Retrofitting; Seismicity; Unreinforced concrete
Geographical
Coverage
United States
TRIS Online
Accession No
1744830
Contract Number DTRT13-G-UTC52 (Grant 2)
Report Number 2014-UTK-R10
Resource type Tech Report
URL https://ntlrepository.blob.core.windows.net/lib/79000/79100/79177/NURail2014-UTK-R10_Final_Report_w_TRDP.pdf
Format PDF
Database NTL Digital Repository