live-load distribution factors for prestressed concrete spread box-girder bridge

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This study presents an evaluation of shear and moment live-load distribution factors for a new, prestressed concrete, spread box-girder bridge. The shear and moment distribution .This study presents an evaluation of shear and moment live-load distribution factors for a new, prestressed concrete, spread box-girder bridge. This paper presents the results of a study investigating the live-load distribution characteristics of box-girder bridges and the limits imposed by the LRFD specifications. .

ABSTRACT: This paper presents an evaluation of flexural live-load distribution factors for a series of three-span prestressed concrete girder bridges. The response of one bridge, .

prestressed concrete bridge design program, CONSPAN®, is now able to build the model, process either a grillage model or a beam and plate model (depending on the absence or .This paper presents an evaluation of a new prestressed concrete bridge type, spread slab beam bridges, in terms of performance and provides design guidelines including live load distribution .Evaluation of live-load distribution factors for high-performance prestressed concrete girder bridges

A girder using high-performance, high-strength concrete has been instrumented and tested under controlled-load LRFD distribution factors were compared to the factors computed from girders . This study presents an evaluation of shear and moment live-load distribution factors for a new, prestressed concrete, spread box-girder bridge. The shear and moment distribution . Empirical equations were derived for live load distribution factors of maximum tensile stresses at the bottom fiber of box-girders along the span, compressive stresses at the bottom fiber of box-girders at the pier, and . Live load distribution in multi-cell box-girder bridge and its comparison with the AASHTO LRFD Bridge Design Specifications, California Department of Transportation, Sacramento, Calif. Google Scholar Zokaie, T., Osterkamp, T. A., and Imbsen, R. A. (1991).

Live-Load Distribution Factors for Prestressed Concrete, Spread Box-Girder Bridge Journal of Bridge Engineering 10.1061/(asce)1084-0702(2006)11:5(573)

prestressed concrete girder bridges

The design and construction of spread slab beam bridges is becoming commonplace in Texas. Although this relatively new class of bridge is somewhat similar to spread box beam bridges, it is unclear whether the existing live load distribution factor (LLDF) equations for the latter system are applicable for the former. AbstractTwo similar bridges constructed with a live-load continuous connection were tested for live-load distribution and joint continuity. Girder distribution factors (GDFs) were compared with AASHTO equivalent values. For positive moments on all girders .

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Section 3.28 of the AASHTO Standard Specifications defines the methods for calculating the live load distribution factor for a prestressed concrete spread box beam superstructure. Equation 3-33 of this section consists of a number of variables, two of which have defined upper and lower bounds. Abstract A diaphragm is an essential component of a T-girder bridge. Evaluating the influence of various truss diaphragms (TDs) on the structural behavior and load distribution factor of T-girder bridges assists in bridge design and strengthening. In this . Practical Applications Deterioration of multigirder bridges is getting worse due to the increasing traffic . The response of a typical box-girder bridge was recorded during a static l. AbstractThis paper presents an evaluation of flexural live-load distribution factors for cast-in-place box-girder bridges. . E., and Idriss, R. (2006). “Live-load distribution factors for prestressed concrete spread box-girder bridge.” J. Bridge Eng., 11(5), 573 .

This paper presents an evaluation of flexural live-load distribution factors for a series of three-span prestressed concrete girder bridges. The response of one bridge, measured during a static live-load test, was used to evaluate the reliability of a finite-element model scheme.The AASHTO Load and Resistance Factor Design (LRFD) spread box beam bridge . spread slab beam bridges to provide an appropriate estimate of load sharing for girder design. Keywords: Precast Prestressed Concrete, Bridge Girder, Spread Slab Beam Bridge, Live Load Distribution Factor. . Appropriate girder live load distribution factor (LLDF .298 / JOURNAL OF BRIDGE ENGINEERING / SEPTEMBER/OCTOBER 2001 LIVE-LOAD DISTRIBUTION FACTORS IN PRESTRESSED CONCRETE GIRDER BRIDGES By Paul J. Barr,1 Marc O. Eberhard,2 and John F. Stanton3 ABSTRACT: This paper presents an evaluation of flexural live-load distribution factors for a series of three- span prestressed concrete girder .

prestressed concrete girder bridge live load

12% for exterior girders. The current study utilizes live-load test data for high-strength concrete girder bridge to evaluate the applicability of AASHTO LRFD [12] distribution factors. Based upon the live-load test data, a parametric study was developed using a calibrated FEM to evaluate the effect of skew angles, intermediate and end . This paper presents an evaluation of a new prestressed concrete bridge type, spread slab beam bridges, in terms of performance and provides design guidelines including live load distribution .

Live load distribution factor (LDF) equations are among the most important bridge design calculations because they provide the distributed moment and forces, which are needed for designing new or .Calculation of live load distribution factors using refined analysis produces more accurate . the live load moment for spread box beams by 13 to 17 percent and 18 to 24 percent for I-beams. . percent for the same prestressed concrete girder bridge designed using code values. The

PDF | On Aug 14, 2019, Hazim Dwairi and others published Evaluation of live-load distribution factors for high-performance prestressed concrete girder bridges | Find, read and cite all the .

To evaluate the actual load distribution, a load test is performed on a sixty-year-old prestressed concrete I-girder bridge. The field-testing live load distribution factors are determined for both interior and exterior girders using strain sensors. The three-dimensional finite element model (FEM) is developed for the comparison of equations . The lever rule method is often used to determine live load distribution factors (LDFs) in two-girder bridge systems because of the ranges of applicability implicit in the simplified equations of the AASHTO LRFD bridge design specifications.

“Live-load distribution factors in prestressed concrete girder bridges.” J. Bridge Eng., 6(5), 298–306. Crossref. Google Scholar. . Dept. of Civil and Geological Engineering, New Mexico State Univ., Box 30001, Las Cruces, NM 88003. View all . AbstractThe Texas Department of Transportation (TxDOT) uses precast prestressed concrete slab beams in a side-by-side configuration for short-span bridges in low-clearance areas. To reduce costs, a new bridge type called a spread slab beam bridge was .

Table 1. Distribution of live loads per lane for moment in interior beams, for use with U.S. customary units (Ref. 2). Type of beam Concrete deck on concrete spread-box beams Concrete deck, fill ed grid, or partially fill ed grid on steel or concrete beams; Concrete T-beams, T-and double T-sections Applicable cross section from Table 4.6.2.2.1-1

prestressed concrete girder bridge distribution factors

One of the main goals in the design of girder bridge deck systems is to determine the cross-sectional distribution of live loads across the . prestressed concrete, spread box-girder bridge. The shear and moment distribution . approximate method for determining the live-load girder distribution factors of irregular slab on I-beam bridge .Use K = 2.2 when determining the live load distribution factor. Use S/10 as maximum limit on live load distribution. Section 3.9: Prestressed Concrete Box Beams (Types B20, B28, B34, and B40) Live load distribution factors must conform to AASHTO LRFD Bridge Design Specifications, Article 4.6.2.2.2 and Article 4.6.2.2.3. Use: Cross section (f .

The goals of this paper are: (1) to evaluate the accuracy of a finite-element modeling strategy; (2) to evaluate code expressions for live-load distribution factors for prestressed concrete girder bridges; and (3) to evaluate the influence of lifts (the layer of concrete between the top of the girder and the bottom of the deck), intermediate . Abstract Accelerated bridge construction (ABC) has been widely used in the United States since the late 1990s following a national ABC initiative by the Transportation Research Board (TRB) in 1996. The press-brake-formed tub girder (PBFTG) system is one .

Moment and shear load distributions are important for bridge design live-load distribution factors. Song et al. [6] investigated the live-load distribution characteristics of boxgirder bridges and .

Live load distribution factors are used to determine the live-load moment for bridge girder design when a two dimensional analysis is conducted. Title: Development of Live Load Distribution Factor Equation for Concrete Multicell Box-Girder Bridges under Vehicle Loading. Author(s): Won Choi, Iman Mohseni, Jongsup Park and Junsuk Kang. Publication: IJCSM. Volume: 13. Issue: Appears on pages(s): Keywords: finite element modelling, distribution factor, truck, box bridges. DOI: 10.1186 .

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live-load distribution factors for prestressed concrete spread box-girder bridge|prestressed concrete girder bridge live load

live-load distribution factors for prestressed concrete spread box-girder bridge|prestressed concrete girder bridge live load.

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