Pretensioned, Rocking Bridge Columns for Accelerated Construction and Enhanced Seismic Performance-Reference-Cited by-同舟云学术

Pretensioned, Rocking Bridge Columns for Accelerated Construction and Enhanced Seismic Performance

Published:2017 Issue: Volume: Page:
ISSN:2221-3783
Container-title:IABSE Symposium, Vancouver 2017: Engineering the Future
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Author:

Thonstad Travis¹,Mantawy Islam M.²,Eberhard Marc O.¹,Stanton John¹,Sanders David H.²

Affiliation:

1. University of Washington, Seattle, WA, USA

2. University of Nevada, Reno, Reno, NV, USA

Abstract

<p>A new precast bridge bent system has been developed that accelerates on-site construction activities, minimizes residual displacements even after large seismic events and reduces post- earthquake damage. The connections are the key to the system’s seismic performance. They were tested under quasi-static conditions and found to perform exceptionally well with nearly zero strength degradation and little concrete damage, even after being loaded cyclically up to drift ratios of 10%. The restoring properties of the system were evaluated through multi-shaking table tests conducted on a quarter-scale, two-span bridge specimen. The maximum residual drift ratio during testing was 0.4%, even after excursions to drift ratios exceeding 13%. This paper describes the new system, compares its performance to that of more conventional cast-in-place construction, and describes key aspects of its design philosophy.</p>

Publisher

International Association for Bridge and Structural Engineering (IABSE)

Reference17 articles.

1. Federal Highway Administration. Accelerated Bridge Construction: Experience in Design, Fabrication and Erection of Prefabricated Elements and Systems. Springfield (VA): National Technical Information Service; 2011.

2. Schaefer J, Kennedy B, Stanton JF, Eberhard MO. Unbonded Pretensioned Bridge Columns with Rocking Detail. Berkeley (CA): Pacific Earthquake Engineering Research Center; 2014.

3. Kennedy B. Rocking Connection Between a Precast Bridge Column and Cap Beam. Seattle (WA): University of Washington; 2015

4. Shaking Table Performance of a New Bridge System with Pretensioned Rocking Columns

5. Seismic Performance of Precast, Pretensioned, and Cast-in-Place Bridges: Shake Table Test Comparison

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