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Steel bridge deck pavement structure

A steel bridge deck and pavement technology, applied in bridges, bridge construction, bridge parts, etc., can solve the problems of poor low-temperature cracking resistance, achieve excellent wear resistance and flexural performance, ingenious structure, and the effect of isolating moisture

Active Publication Date: 2022-07-29
重庆市智翔铺道技术工程有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, although the steel bridge deck pavement structure mentioned above can achieve ultra-thin pavement, its wear resistance and flexural performance need to be further optimized, and its low temperature cracking resistance during winter use is poor

Method used

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  • Steel bridge deck pavement structure
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  • Steel bridge deck pavement structure

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] A steel bridge deck pavement structure, such as figure 1 , figure 2 and image 3 As shown, including the anti-corrosion layer 2, the elastic transition layer 3, the polymer prefabricated profile layer 4 and the anti-slip layer 5 laid on the steel bridge deck 1 (steel plate) in sequence, between the elastic transition layer 3 and the polymer prefabricated profile layer 4 There is a bonding layer (not shown in the figure); the elastic transition layer 3 and the anti-slip layer 5 both adopt an integral molding structure, and the specifications of the single polymer prefabricated profile layer 4 are 6-12 meters long and 1-1.8 meters wide. , the adjacent polymer prefabricated profile layers 4 are connected by lap joint or snap connection, and the surfaces of all the connected polymer prefabricated profile layers 4 are located on the same plane.

[0027] Among them, the elastic transition layer 3 is prepared by blending reactive resin and fillers with a particle size of le...

Embodiment 2

[0035] A steel bridge deck pavement structure, with reference to Embodiment 1 and combined with Figure 4 As shown, the main difference between it and Example 1 is: the anti-slip layer 5 is a 5mm thick modified methacrylic resin layer; the polymer prefabricated profile layer 4 is a hollow profile layer prefabricated with modified ASA, and its thickness is 40mm , the hollow ratio is 30%, the holes corresponding to the hollow parts are round holes; the thickness of the elastic transition layer 3 is 15mm.

Embodiment 3

[0037] A steel bridge deck pavement structure, referring to Example 1, the main difference between it and Example 1 is: the anti-slip layer 5 adopts a 6mm thick modified methacrylic resin layer; the polymer prefabricated profile layer 4 adopts PA alloy. The prefabricated hollow profile layer has a thickness of 30 mm, a hollow ratio of 70%, and the holes corresponding to the hollow parts are square holes; the thickness of the elastic transition layer 3 is 12 mm.

[0038] In the remaining examples, refer to implementation 1, wherein: the thickness of the anti-corrosion layer can be selected in the range of 0.05-0.8mm, the thickness of the elastic transition layer can be selected in the range of 5-10mm, and the thickness of the polymer prefabricated profile layer can be selected in the range of 30-35mm The thickness of the anti-slip layer can be selected within the range of 4-6mm; the polymer prefabricated profile layer can also be made of PVC alloy.

[0039] By adopting the stee...

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Abstract

The invention provides a steel bridge deck pavement structure. The steel bridge deck pavement structure comprises an anti-corrosion layer, an elastic transition layer, a bonding layer, a macromolecule prefabricated profile layer and an anti-sliding layer which are sequentially laid on a steel bridge deck slab. The elastic transition layer is prepared by blending reaction type resin and filler with the particle size smaller than 5 mm, and the reaction type resin is one or a combination of more of polyurethane, modified epoxy resin, methacrylic resin, liquid silicone rubber and liquid polysulfide rubber or a modifier of the polyurethane, the modified epoxy resin, the methacrylic resin, the liquid silicone rubber and the liquid polysulfide rubber; the macromolecular prefabricated section bar layer adopts a spliced structure, and is a section bar layer prefabricated by adopting thermoplastic resin or thermosetting resin or modified substances thereof; and the anti-skid layer is prepared by blending reactive resin and aggregate. The steel bridge deck pavement structure disclosed by the invention not only has very excellent low-temperature cracking resistance and fatigue resistance, but also has excellent wear resistance and fracture resistance, and also has excellent high stability and load deformation resistance, so that the long service life of the ultra-thin steel bridge deck pavement structure is really realized.

Description

technical field [0001] This application belongs to the divisional application of 202010635098.3. [0002] The invention belongs to the technical field of steel bridge deck paving, in particular to a steel bridge deck paving structure. Background technique [0003] In the field of steel bridge deck pavement technology, the development of ultra-thin and ultra-light steel bridge deck pavement structures is a research hotspot in this field. [0004] In the prior art, document CN207331448U provides a long-term fatigue-resistant steel bridge deck pavement structure, which sequentially includes a flexible concrete wear layer, a rigid concrete structure layer and a flexible concrete protective layer from top to bottom. On the rigid concrete structural layer, the rigid concrete structural layer is installed on the flexible concrete protective layer, and the flexible concrete protective layer is used to install on the steel bridge deck, that is, the three-layer composite pavement ado...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E01D19/12E01D19/08
CPCE01D19/125E01D19/083
Inventor 郝增恒盛兴跃杨波李璐徐建晖刘攀全弘彬张锋代剑锋
Owner 重庆市智翔铺道技术工程有限公司
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