JPS63194055A - Concrete slab having carbon fiber wire embedded therein - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application J] The present invention relates to a concrete slab in which carbon fiber wires are embedded.

[Prior art and its problems] One conventional method involves embedding PC steel strands in a concrete slab and applying prestress to reduce the bending stress of the slab by PC.
I had to pay ayo 9M.

However, in the conventional prestressing method described above, the wires made of prestressed steel must be tensed with jacks after concrete is poured, which takes time and effort to manage the tension of the jacks, and the wires made of prestressed steel are heavier and difficult to handle. Not only that, but there were also problems such as easy corrosion and deterioration.

Purpose of the Invention J The present invention was made in order to solve the above-mentioned problems of the conventional art. -Toss It's about providing love.

[Configuration 1 of the invention] The concrete slab in which the carbon fiber wire of the present invention is embedded is:
The carbon fiber wire rod is embedded in the slab and fixed to the slab concrete to bear the slab load, and both ends of the carbon woven m#a are fixed to the slab concrete by fixing plates or the like. The method is characterized in that the carbon fiber wires are fixed, or the carbon fiber wires are fixed by being attached to slab concrete.

[Example] Hereinafter, an example of the present invention will be described with reference to the drawings.

In FIG. 1, reference numeral 1 denotes a slab supporting frame such as a beam or a wall, on which a concrete slab 2 is integrally constructed.

In the concrete slab 2, carbon AM wires 3 are buried alternately between the two slab supporting frames 1, 1.

Generally, the concrete slab 2 is subjected to a downward self-extension moment at its intermediate portion, and an upward bending moment is applied at the portion close to the slab support frame 1, so the carbon fiber wire 3 is It is preferable to arrange them so that they are located near the bottom end of the slab, and near the top end of the slab on both sides.

The above carbon fiber M3 is made from petroleum pitch, for example, and has a tensile strength of about 250 to 700 kg/C2, and a very high tensile modulus of 20 to 80 ton/ms2, so it hardly stretches. .

Therefore, both ends of the carbon fiber #I3 are attached to the fixing plate 4.
If it is fixed by an appropriate fixing means such as the like, even if the tensile force due to the load of the slab is applied to the carbon fiber wire 3, the carbon fiber wire will hardly stretch, and the creep deflection of the slab can be minimized.

Further, this type of carbon fiber wire 3 has an expansion coefficient of -0, for example.
, 5X10''''611/''C, so if the construction is carried out at as low a temperature as possible, it will rather shrink at normal temperatures and prestress can be applied to the slab concrete.

FIG. 2 shows another embodiment in which carbon fiber A-wire 6 is embedded in a semi-PC (precast) slab board 5.
By reinforcing the slab plate 5, creep deflection of the entire slab can be reduced.

Incidentally, if the carbon fiber M3.6 can be attached to concrete with sufficient strength, the fixing means such as the fixing plate 4 may be omitted.

[Advantageous Effects of the Invention 1 (1) Since the carbon fiber wire is simply buried in concrete, construction is easy, and tension work using jacks as in the conventional method is not required, resulting in cost reduction.

(2) Since carbon fiber wire is light, it is easy to handle and install.

(3) Since carbon fiber wire has excellent corrosion resistance and deterioration resistance, 1. The durability of the slab is improved.

(4) Creep deflection of large slabs can be reduced, and it can be used not only for apartment complexes but also for slabs in warehouses, shaping centers, etc.

(5) It is suitable for a 7-rat slab structure, and small beams can be omitted.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view of a concrete slab according to the present invention;
FIG. 2 is a sectional view showing another embodiment. DESCRIPTION OF SYMBOLS 1... Slab support frame, 2... Concrete slab, 3... Carbon fiber wire, 4... Fixing plate 8.5.
... Half PC slab board, 6... Carbon fiber wire.

Claims (3)

[Claims] (1) A concrete slab in which carbon fiber wires are embedded, characterized in that the carbon fiber wires are embedded in the slab and fixed to the slab concrete to bear the load of the slab. (2) A concrete slab in which carbon fiber wires are embedded as set forth in claim 1, wherein both ends of the carbon fiber wires are fixed to slab concrete using fixing plates or the like. (3) Claim 1, characterized in that the carbon fiber wire is attached and fixed to slab concrete.
Concrete slab with embedded carbon fiber wires as described in section.