Performance Evaluation of Longitudinal Ultrahigh-Performance Concrete Closure Pour Connection for Use in Modular Bridge Construction: Pairwise Comparison of Capacity and Ductility at Failure Limit State

Deng, Yehao; Phares, Brent; Putz, Andrew J.; Carter, Curtis; Nop, Michael; Bierwagen, Dean

doi:10.3141/2592-08

Cited by 6 publications

(2 citation statements)

References 6 publications

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“…This study considered a bridge replacement project of a bridge located on Iowa Highway 92 over Little Silver Creek in Pottawattamie County, Iowa (Figure 1). The performance of an ultrahigh-performance concrete longitudinal joint detail used for the bridge was previously evaluated by the authors (1). The present paper reports on the behavior of a high-performance concrete (HPC) transverse joint detail used for the bridge.…”

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Performance Evaluation of Transverse High-Performance Concrete Closure Pour Connection for Use in Modular Bridge Construction

Deng

Phares

Putz

et al. 2017

Transportation Research Record: Journal of the Transportation R

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Because of the potential for concrete crushing, the negative moment transfer mechanism of the transverse connections above the pier support is still a point of concern. The objective of this study was to evaluate the behavior of a transverse closure pour connection used for the constructed Little Silver Creek Bridge in Iowa and to validate its adequacy for modular bridge application. To evaluate the need for the complicated compression block, two transverse connection specimens with and without the compression block were designed, fabricated, instrumented, and tested under a negative bending moment. Finite element models were established to further understand the specimens’ performance, and hand calculations were performed to estimate their moment capacity. No significant difference was found between the crack patterns of the two specimens, and the diaphragm concrete tended to crush in the bottom regardless of the configuration. The established finite element models were sufficient at representing the structural behavior of the two transverse connection specimens. The connection with a compression block had higher yield and ultimate moment capacity than the connection without a compression block. To design both types of connections according to the classic theory of reinforced concrete design, an effective width equal to the width of the steel girder bottom flange and the centroid of the compression force at the bottom of the steel girder bottom flange can be assumed for the connections with and without a compression block, respectively. Hand calculations reasonably estimated the moment capacity of the two specimens, and the two connections were safe under the codified, factored loads.

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“…• Suppression of extra displacement shapes and tensile stress relaxation after cracking were applied to solid elements (1,(11)(12)(13)(14).…”

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Performance Evaluation of Transverse High-Performance Concrete Closure Pour Connection for Use in Modular Bridge Construction

Deng

Phares

Putz

et al. 2017

Transportation Research Record: Journal of the Transportation R

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Development of a precast prestressed concrete through‐girder system for shallow bridge structures

Sun

Farzana

Kuruppuarachchi

et al. 2021

Structural Concrete

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This paper proposes an innovative precast through‐girder system that can be used in shallow bridge structures. It discusses various components of the through‐girder system, including the edge (through) girders, transverse beams, and longitudinal and transverse connections. The through girders are made of precast concrete box beam segments that are spliced longitudinally through posttensioning. The precast prestressed transverse beams span between the through‐girders involving the use of transverse posttensioning. An important feature of this system is to implement ultra‐high performance concrete (UHPC) at the all joints. The use of UHPC allows to minimizing the joint width and achieving superior durability. A numerical example is presented to demonstrate the analysis and design of the through‐girder bridge superstructure accounting for both high‐performance concrete (HPC) and UHPC options. The UHPC superstructure option can reduce the sizes of the structural members and allow to enhancing the structural performance.

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Rehabilitation of Longitudinal Joints in Double-Tee Girder Bridges

Bohn

2019

J. Bridge Eng.

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Performance Evaluation of Longitudinal Ultrahigh-Performance Concrete Closure Pour Connection for Use in Modular Bridge Construction: Pairwise Comparison of Capacity and Ductility at Failure Limit State

Cited by 6 publications

References 6 publications

Performance Evaluation of Transverse High-Performance Concrete Closure Pour Connection for Use in Modular Bridge Construction

Performance Evaluation of Transverse High-Performance Concrete Closure Pour Connection for Use in Modular Bridge Construction

Development of a precast prestressed concrete through‐girder system for shallow bridge structures

Rehabilitation of Longitudinal Joints in Double-Tee Girder Bridges

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