RU2430220C2 - Composite rod - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: composite rod of a high-strength polymer for reinforcement of binding media, including fibres combined in bunches, is formed by twisting of bunches. The diameter of bunches makes 25-47% of the rod diameter, and number of bunches has to be at least 3, and quantity of bunch twists per metre of the rod is in the range of 5-120.

EFFECT: higher adhesive capacity of pilot rods is ensured by grooves formed by neighbouring twisted bunches.

1 cl, 5 dwg, 1 tbl

Description

The invention relates to construction, namely to a non-metallic composite reinforcement, which is used for reinforcing binding media; for reinforcing heat-insulating wall structures, monolithic concrete and prefabricated structures; for use in structural elements of buildings; for soil reinforcement of the foundations of buildings and structures, including the foundations of motorways and roads; for anchoring in the ground retaining walls and structures.

Known reinforcing element containing a rod of high-strength polymer material and a winding with ledges (Frolov V.P. Fiberglass reinforcement and glass-concrete structures. M: Stroyizdat, 1980, p.20-27).

The disadvantage of this reinforcing element is the low degree of adhesion to concrete.

The present invention solves the problem of creating a composite rod with increased adhesive ability.

To achieve the technical result, a composite rod made of high-strength polymer for reinforcing binding media, including fibers combined into bundles, is formed by twisting bundles, the diameter of bundles being 25-47% of the diameter of the rod, the number of bundles should be at least 3, and the number torsion of the bundles per meter rod is in the range of 5-120.

Distinctive features of the proposed composite rod from the above known closest to it is that the rod is formed by torsion of the bundles, the diameter of the bundles being 25-47% of the diameter of the rod, the number of bundles should be at least 3, and the number of torsions of the bundles per meter The rod is in the range of 5-120.

Due to the presence of these signs, a new type of composite rod has been created, having increased adhesive ability due to the implementation of the rod from several bundles of certain geometric ratios, combined by torsion into a single rod.

The proposed composite reinforcement is illustrated by the drawings shown in figures 1-5.

Figure 1 shows the composite rod (general view) with a minimum Z = 5 of the number of torsions of the bundles forming the rod.

Figure 2 shows the composite rod (general view) with a maximum Z = 120 of the number of torsions of the bundles forming the rod.

Figure 3 shows a twisted rod (section), consisting of 3 bundles of the same diameter.

Figure 4 shows a twisted rod (section), consisting of 4 bundles of the same diameter.

Figure 5 shows a twisted rod (section), consisting of bundles of different diameters.

The composite rod (FIGS. 1, 2) is formed by torsion of several bundles 1. In cross section, the rod can be made of three bundles (FIG. 3), four bundles (FIG. 4) and a composition of bundles of different diameters (FIG. 5). The rod can be made with a different number of torsions (Z) per unit length (m). Figure 1 shows a rod with a minimum number of twists on a length of 1 meter Z = 5, and figure 2 shows a rod with a maximum number of twists along a length Z = 120.

The manufacture of such rods is as follows. At the first stage, bundles of the required diameters are made by known methods (for example, weaving).

At the second stage, the bundles of the calculated amount are continuously impregnated with a thermosetting compound based on epoxy resin and the necessary twisting is carried out between them. After curing in the furnace, the bundles stick together, forming a rod, which is cut into pieces of the required length.

Comparative tests of the prototype of basalt-plastic rods with diameters of 6, 8, 10, 12 mm and prototypes of rods made of basalt-plastic bundles inscribed in diameters of 6, 8, 10, 12 mm were carried out. Variants of combinations of the number of tows and their diameters were determined by computer geometric modeling.

The increased adhesive ability of the test rods is provided by grooves (recesses) formed by adjacent twisted bundles.

The amount of adhesion (anchoring) was determined by the efforts of pulling out the rod samples from the cement mortar of the M100 grade with a termination length of 100 mm.

The table shows the following data:

- A, (N / cm) - the specific value of the pulling force of the reinforcement in newtons (N) per unit length of the reinforcement in centimeters (cm).

- d / D × 100% - the ratio of the diameters of the bundles d with respect to the diameter of the described circumference of the rod D in percent.

The determination of the possible number of torsion of the bundles was determined empirically.

The minimum values of the twists Z _{min were} determined by separating the bundles from each other. When Z _min = 5, the bundles are separated.

The maximum value of twists Z _max is determined by the technological capabilities of the equipment Z _max = 120.

As a result of the studies, it was found that the high anchoring properties of prototypes of composite rods were achieved using harnesses with diameters from 25% to 47% of the diameter of the composite rod, with a minimum number of bundles in the rod equal to three, and the number of twists of the bundles per meter rod is in the range 5-120.

The highest anchoring properties are achieved when the rods are made of 3 bundles in cross section, made round at a ratio of d _W = 47% D _Art , where d _W are the diameters of the bundles, and D _Art is the diameter of the reinforcement bar.

The smallest anchoring properties are obtained using thin harnesses d _W = 25% D. In this case, the spiral grooves of small sizes are filled with resin and the anchoring properties correspond to the prototype.

The increase in the number of twists of the strands from Z = 5 initially increases the anchoring properties, and when twisting Z = 120, the spiral grooves are compressed, and the rod degenerates into the prototype according to the anchoring properties.

Claims (1)

Composite rod of high-strength polymer for reinforcing binding media, including fibers combined into bundles, characterized in that the rod is formed by twisting the bundles, the diameter of the bundles being 25-47% of the diameter of the rod, the number of bundles should be at least 3, and the number torsion of the bundles per meter rod is in the range of 5-120.

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