High-strength self-consolidating concrete girders subjected to elevated compressive fiber stresses, part 1: Prestress loss and camber behavior

Prestress losses have a direct impact on concrete stress development and deflection behavior of highway bridge members. A poor estimate of prestress losses can result in a structure in which allowable stresses are exceeded or camber and deflection behavior is poorly predicted, such that the serviceability of a structure may be adversely affected. This paper reports the prestress losses observed throughout fabrication, shipment, erection, and the first 2 years of service for the first high-performance superstructure concrete bridge in Missouri. The prestress losses investigated included prerelease losses, elastic shortening losses, relaxation losses, creep losses, and shrinkage losses. Results from the study were compared with eight commonly used loss estimate models for total prestress losses, including AASHTO and Prestressed Concrete Institute methods. Recommendations were proposed by the authors for the most appropriate methodology to use to predict prestress losses in high-strength concrete girders accurately.

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Comparison of experimental approaches for seismic performance evaluation of bridge piers with high strength self-consolidating concrete towards practical engineering application

Engineering Structures ◽

10.1016/j.engstruct.2021.112665 ◽

2021 ◽

Vol 243 ◽

pp. 112665

Author(s):

Hongya Qu ◽

Chengjun Wu ◽

Tiantian Li ◽

Jixing Fu ◽

Zhiqiang Wang

Keyword(s):

Performance Evaluation ◽

Seismic Performance ◽

Engineering Application ◽

High Strength ◽

Bridge Piers ◽

Self Consolidating Concrete ◽

Seismic Performance Evaluation ◽

Practical Engineering ◽

Experimental Approaches

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Strengthening of a City Center Tunnel with Concrete Screw Anchors under Special Boundary Conditions

IABSE Congress, New York, New York 2019: The Evolving Metropolis ◽

10.2749/newyork.2019.1492 ◽

2019 ◽

Author(s):

Johannes Lechner ◽

Jürgen Feix ◽

Robert Hertle

Keyword(s):

Ductile Failure ◽

High Strength ◽

Shear Capacity ◽

City Center ◽

Cracked Concrete ◽

Concrete Girders ◽

Effective Depth ◽

The University ◽

The City ◽

East West

<p>The Altstadtring-Tunnel is one of the essential east-west traffic routes in the city center of Munich and was constructed in the late 1960s. Segment 34 of the tunnel was built directly underneath the existing Prince-Carl- Palais, a historic building from 1804. Therefore 15 pre-stressed concrete girders with an effective depth of</p><p>3.5 m and a maximum span of up to 30 m were built which now form the tunnel roof slab. These girders were pre-stressed with steel nowadays well known for stress corrosion cracking. A recalculation of the slab showed that no ductile failure can be guaranteed in case of a progressive rupture of the tendons. Therefore, a concept for strengthening the slab was developed using concrete screw anchors as post installed bending and shear reinforcement. The concrete screw anchors are normally installed as anchoring elements in cracked and non- cracked concrete and are available with diameters up to 22 mm. Developing this concept further, it is straight forward to use these anchoring elements as post-installed reinforcement in existing concrete structures. This new strengthening system was developed at the University of Innsbruck in the last few years and can fulfill the special requirements of this project, such as installation of the strengthening system from underneath the tunnel slab during ongoing use of the structure. High strength steel with diameters of up to 63.5 mm will be used as post-installed bending reinforcement covered with a new shotcrete layer on the underside of the tunnel slab. In total 59.3 tons of new flexural reinforcement and 7199 concrete screws for strengthening the shear capacity of the girders will be used to ensure a ductile failure of the tunnel slab. The on-site work started in March 2019 and is expected to take two years to complete.</p>

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