CN201254685Y - Composite material bridge deck - Google Patents

Abstract

The utility model relates to a corrosion-resistant combined material decking excels in of light can be used for bridge and structure as atress panel. The novel bridge deck is characterized in that: light weight, high strength, large rigidity, corrosion resistance, peeling resistance, convenient transportation and loading, rapid construction and industrialized production. The bridge deck slab is characterized in that the composite material bridge deck slab consists of a wood or foam solid core material (1) and resin-based fiber panels (2) on the upper side and the lower side of the wood or foam solid core material, and reinforced forms such as a resin web (3) or a composite material web (4) can be formed on the core material (1) to improve the compression resistance and the shear resistance of the core material (1). Or a concrete layer (5) can be poured on the bridge deck through the shear key (6) to form the composite material-concrete combined bridge deck. The method can be used for quickly constructing permanent bridge deck projects, and can also be used in the fields of temporary disaster relief, emergency rescue, military emergency construction and other projects.

Description

A kind of composite material bridge deck

Technical field

The utility model relates to the corrosion resistant composite material bridge deck of a kind of high-strength light, can be used as stressed sheet material and is used for bridge and structure, belongs to field of composite structures.

Background technology

Traditional bridge deck structure adopts the reinforced concrete structure form more, and it is bigger to conduct oneself with dignity, and construction is complicated, the cycle is long, and corrosion resistance is relatively poor.In addition, under long-term load-bearing environment or earthquake disaster when taking place, the concrete structure bridge deck easily crack or destroy, and cause potential safety hazard.At above-mentioned shortcoming, can adopt the bridge deck of composite material, and the composite material bridge deck of domestic and international up-to-date proposition at present, mostly be the glass fiber reinforced plastics hollow bridge deck of pultrusion, but pultrude process is difficult to the large-scale bridge deck structure of one-shot forming, need operations such as extra increase is gluing, winding, as: patent CN201047062Y, CN200946244Y.The utility model proposes a kind of composite material bridge deck that adopts the sandwich form, the centre is solid cores such as timber or foam, and upper and lower panel is fibre reinforced composites, can adopt the one-shot forming of vacuum introducing technology; Thereby the utility model also can be provided with the bridge deck that layer of concrete forms composite material-concrete combination above its panel, can improve road-ability, be used for building fast permanent bridge panel engineering, also can be used for engineering fields such as interim disaster relief and rescue, military rush construction.

Summary of the invention

The purpose of this utility model is at above-mentioned the deficiencies in the prior art, the composite material bridge deck that provides a kind of novel civilian and national defence to be badly in need of.

The purpose of this utility model can reach by following measure:

A kind of composite material bridge deck, it comprises core 1, the two sides of core 1 are provided with the panel 2 that fiber layer of cloth and resin solidification form, and the composite material web 4 that is the resin web 3 of 45 ° of-90 ° of regular arrangement with panel 2 or adopts cloth and resin solidification formation is set in core 1.

Described core 1 material is Balsa wood, paulownia wood, China fir, oak, veneer, polyurethane foam, polyvinyl chloride foam or carbon foam.

The fiber layer of cloth that described panel 2 adopts is: single shaft to, twin shaft to or multiaxis to carbon fiber, glass fiber, basalt fibre, aramid fiber or hybridization cloth; The resin that panel 2 adopts is: unsaturated polyester (UP), vinylite, epoxy resin or phenolic resins.

Described panel 2 is provided with layer of concrete 5, and layer of concrete 5 is combined as a whole by shear connector 6 and panel 2, perhaps builds in panel 2 tops, forms the combined bridge deck system of composite material-concrete.

Described shear connector 6 is nail, sheet material or Z-shaped section bar.

Above-mentioned composite material bridge deck can adopt hand to stick with paste technology, vacuum bag moulding process, vacuum guiding and forming technique preparation.

The utlity model has following advantage:

The composite material bridge deck that the utility model provides is compared with other products, its maximum characteristics are: in light weight, the intensity height, rigidity is big, moistureproof, corrosion-resistant, antistripping, convenient transport, assembling construction are simple, convenient and rapid, can be used for building and repairing of emergency road in national defence and the civil engineering.But this composite material bridge deck suitability for industrialized production simultaneously can be by the bridge deck of driving requirements production different size.

Description of drawings

Fig. 1 is one of composite material bridge deck structural representation.

Fig. 2 is two of a composite material bridge deck structural representation.

Fig. 3 is three of a composite material bridge deck structural representation.

Fig. 4 is a composite material bridge deck structural representation of setting up layer of concrete.

In the accompanying drawing: 1 is core, comprising: cork wood (Balsa wood, paulownia wood, China fir, oak, veneer etc.) and foam (polyurethane, polyvinyl chloride, carbon foam etc.); 2 is panel, is formed by fiber layer of cloth and resin solidification; 3 is the resin web; 4 is the composite material web; 5 is layer of concrete; 6 is shear connector.

The specific embodiment

The utility model is further described below in conjunction with the drawings and specific embodiments:

Embodiment 1

Composite material bridge deck of the present utility model, it comprises the core 1 of paulownia wood material, all is equipped with panel 2 in the two sides of core 1, and panel 2 is formed to glass fabric and vinylite curing by two-layer twin shaft, stick with paste the technology preparation by hand, the grain direction of paulownia wood core 1 is perpendicular to panel 2.

Embodiment 2

Composite material bridge deck of the present utility model, it comprises the core 1 of polyurethane foam material, thickness direction regular arrangement resin web 3 along core 1, and resin web 3 is perpendicular to panel 2, two sides at core 1 all are equipped with panel 2, panel 2 is formed by four layers of four-axial basalt fiber cloth and epoxy resin cure, prepares by vacuum guiding and forming technique.

Embodiment 3

Composite material bridge deck of the present utility model, it comprises the core 1 of PVC foam material, thickness direction regular arrangement composite material web 4 along core 1, and composite material web 4 is 45 ° of layouts with panel 2, two sides at core 1 all are equipped with panel 2, panel 2 is formed to carbon cloth and epoxy resin cure by three layers of twin shaft, prepares by vacuum guiding and forming technique.Before implementing the vacuum introducing technology, pre-buried Z-shaped aluminium alloys shear connector 6 on panel 2, behind moulding and the resin solidification, shear connector 6 is combined as a whole with panel 2, pouring concrete above the one side that is provided with shear connector 6 on the panel 2, form layer of concrete 5, layer of concrete 5 is by shear connector 6 and composite material sandwich structure cooperative bearing.

The preparation method of above-mentioned composite material bridge deck is various, can adopt hand to stick with paste technology, vacuum bag moulding process, vacuum guiding and forming technique preparation, is example with the vacuum guiding and forming technique:

A. open the groove of quadrature arrangement to form resin flow passage in the vacuum introducing technology in the upper and lower surface of cork wood (comprising: Balsa wood, paulownia wood, China fir, oak, veneer etc.) and foam (comprising: polyurethane, polyvinyl chloride, carbon foam etc.) core 1;

B. cut open along the thickness direction of cork wood (comprising: Balsa wood, paulownia wood, China fir, oak, veneer etc.) or foam (comprising: polyurethane, polyvinyl chloride, carbon foam etc.) core 1, the position of cutting open, size and quantity can be arranged arbitrarily according to stressed needs, on core 1 thickness direction, the shape of cutting open can vertically or tilt;

C. the core 1 that disposes can require to be processed into certain size with the bridge condition according to driving;

D. with one or more layers cloth (comprising: single shaft to, twin shaft to or multiaxis to carbon fiber, glass fiber, aramid fiber and hybridization cloth etc.) be layed in the upper and lower surface of core 1;

E. by vacuum guiding and forming technique resin (comprising: unsaturated polyester (UP), vinylite, epoxy resin, phenolic resins etc.) is circulated in the vacuum bag; At normal temperatures and pressures with resin solidification, treat the resin solidification moulding after, take out member, promptly form composite material bridge deck;

F. wherein the d step also can preset shear connector 6 and (comprising: nail, sheet material or Z-shaped section bar on the upside cloth of the panel 2 that lays, its material comprises: composite material, aluminium alloys, steel etc.), after adopting the vacuum introducing technology, shear connector 6 is combined as a whole with panel 2;

G. concreting above panel 2, treat the concrete coagulation sclerosis after, layer of concrete 5 is combined as a whole by shear connector 6 and composite sandwich plate.

At this moment, can obtain the bridge deck of composite material-concrete combination.Wherein: the kind of panel 2 and the number of plies, the kind of core 1 and thickness, the kind of resin, the layout of resin web 3 and size, the thickness of layer of concrete 5, the material of shear connector 6 and arrangement all can be adjusted as required flexibly.

Claims (5)

1, a kind of composite material bridge deck, it comprises core (1), the two sides that it is characterized in that described core (1) are provided with panel (2), resin web (3) or composite material web (4) are set in core (1), and resin web (3) or composite material web (4) are 45 °-90 ° with the angle of panel (2).

2, composite material bridge deck according to claim 1 is characterized in that described core (1) material is Balsa wood, paulownia wood, China fir, oak, veneer, polyurethane foam, polyvinyl chloride foam or carbon foam.

3, composite material bridge deck according to claim 1 is characterized in that the fiber layer of cloth that described panel (2) adopts is: single shaft to, twin shaft to or multiaxis to carbon fiber, glass fiber, basalt fibre, aramid fiber or hybridization cloth; The resin that panel (2) adopts is: unsaturated polyester (UP), vinylite, epoxy resin or phenolic resins.

4, according to claim 1 or 3 described composite material bridge decks, it is characterized in that described panel (2) is provided with layer of concrete (5), layer of concrete (5) is combined as a whole by shear connector (6) and panel (2), perhaps build in panel (2) top, form the combined bridge deck system of composite material-concrete.

5, composite material bridge deck according to claim 4 is characterized in that described shear connector (6) is nail, sheet material or Z-shaped section bar.

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