Steel-concrete composite beam bridge hogging moment area bridge deck structure adapting to deformation and construction method

A technology that adapts to deformation and steel-concrete. It is used in bridges, bridge parts, bridge construction, etc., and can solve problems such as increasing the burden of steel beams, adverse effects on durability, and weakening the effect of precompressive stress on concrete slabs, and achieves good stability. , good deformation ability, high strength effect

Pending Publication Date: 2021-04-16
FUZHOU UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, by changing the construction sequence, the concrete bridge deck still bears most of the unfavorable effects of long-term loads after the bridge is completed; adding reinforcement and other methods alone will work with cracks for a long time, which will have an adverse effect on durability; methods such as applying precompression stress Inevitably, additional stress is applied to the shear connectors, which not only increases the burden on the steel beam, but also weakens the effect of the pre-compression stress applied to the concrete slab

Method used

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  • Steel-concrete composite beam bridge hogging moment area bridge deck structure adapting to deformation and construction method
  • Steel-concrete composite beam bridge hogging moment area bridge deck structure adapting to deformation and construction method
  • Steel-concrete composite beam bridge hogging moment area bridge deck structure adapting to deformation and construction method

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] Embodiment one: if Figure 1~2 As shown, a steel-concrete composite girder bridge deck structure adaptable to deformation in the negative moment zone includes a steel girder 5, a pavement surface layer, a pavement base layer 2, and a bearing plate 1. The steel girder section is I-shaped, The girder height of the steel girder in the negative moment zone is 10 to 40 cm higher than the beam height in the positive moment zone, that is, the steel beam in the bridge deck structure in the negative moment zone is raised upwards, that is, figure 1 In the height H, the pavement base is located on the upper side of the bearing plate, the web of the steel beam passes through the bearing plate, and the upper flange of the steel beam is embedded in the pavement base or between the pavement base and the pavement surface; The surface layer, the pavement base 2 and the bearing plate 1 are arranged sequentially from top to bottom; the bridge deck structure of the present invention has a ...

Embodiment 2

[0040] Embodiment two: if image 3 As shown, the difference between this embodiment and Embodiment 1 is that the structure of the bearing plate is different. In this embodiment, the bearing plate 1 adopts a profiled steel plate, and the profiled steel plate is connected to the web connection of the steel beam 5 by welding or bolts. superior.

[0041] The construction method of the bridge deck structure in the negative moment zone of the adaptive steel-concrete composite beam bridge described in the second embodiment includes the following steps:

[0042](1) Steel girder processing and manufacturing: During the construction of the bridge substructure, the processing and manufacturing of steel girders are carried out at the same time, and the corners of the upper wing plates of the steel girders are smoothed to reduce stress concentration; the profiled steel plates and steel girder webs used as bearing plates When the plates are connected by bolts, connecting holes correspondin...

Embodiment 3

[0047] Embodiment three: as Figure 4 As shown, the difference between the present embodiment and the second embodiment is that a layer of lower edge concrete slab 8 is paved on the upper side of the lower flange of the steel beam 5 .

[0048] The construction method of the bridge deck structure in the negative moment zone of the adaptive steel-concrete composite girder bridge described in the third embodiment includes the following steps:

[0049] (1) Steel girder processing and manufacturing: During the construction of the bridge substructure, the processing and manufacturing of steel girders are carried out at the same time, and the corners of the upper wing plates of the steel girders are smoothed to reduce stress concentration; the profiled steel plates and steel girder webs used as bearing plates When the plates are connected by bolts, connecting holes corresponding to the positions of the bolt holes on the profiled steel plate shall be opened on the web of the steel bea...

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Abstract

The invention relates to a steel-concrete composite beam bridge hogging moment area bridge deck structure adapting to deformation and a construction method, the steel-concrete composite beam bridge hogging moment area bridge deck structure adapting to deformation comprises a steel beam, a pavement surface layer, a pavement base layer and a bearing plate, the beam height of the steel beam in a hogging moment area is 10-40 cm higher than the beam height in a positive bending moment area, and the pavement base layer is located above the bearing plate; wherein an upper wing plate of the steel beam is embedded in the paving base layer or between the paving base layer and the paving surface layer, a local reinforcing net is arranged on the upper side of the upper wing plate of the steel beam or on the upper side and the lower side of the upper wing plate of the steel beam, and the local reinforcing net is combined with the paving surface layer or the paving base layer. The bridge deck structure is small in rigidity, the deformation capacity of the bridge deck structure is better under the action of loads, meanwhile, the connection between the bridge deck structure and the upper wing plate of the steel beam is weakened, the bridge deck structure bears smaller negative bending area tensile stress, and therefore the bridge deck structure can well adapt to the characteristic of large deformation of a negative bending moment area of a composite beam bridge.

Description

technical field [0001] The invention relates to a steel-concrete composite girder bridge adaptable to deformation and a construction method in the negative moment zone, belonging to the technical field of civil engineering. Background technique [0002] The steel-concrete composite beam structure is widely used in road, bridge and construction fields because of its reasonable and economical material utilization, fast construction speed and strong practicability. However, the concrete in the negative moment zone of composite continuous beams is prone to cracking under tension, resulting in poor durability of composite beams. To solve this problem, there are mainly the following methods at present: 1. Change the construction sequence so that the steel girders in the negative moment area are fully tensioned and then construct the bridge deck to reduce the tensile stress of the bridge deck; 2. Increase the reinforcement ratio of the bridge deck structure Or use high-performance...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E01D19/12E01D19/08E01D2/02E01D21/00
Inventor 陈宜言黄光铃赵秋
Owner FUZHOU UNIV
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