RU165658U1 - SAMPLE FOR TESTING COMPOSITE TENSION REINFORCEMENT - Google Patents

Abstract

A sample for testing composite reinforcement in tension, containing a rod equipped with thickenings at the ends made by winding the composite fiber on a polymer binder, with a length corresponding to the length of the gripping device of a tensile testing machine, characterized in that the winding is made of tape, the width of which is equal to the length of the gripping device, this fabric is made of composite fiber used for the manufacture of the rod, while the tape is impregnated with a binder used to form the rod.

Description

IPC E04C 5/07

Composite tensile test specimen

The utility model relates to the field of testing building structures, in particular to determining the strength parameters of composite reinforcement, and can be used in testing axial tensile composite reinforcement.

Known grip for testing composite reinforcement made in the form of a steel coupling with an internal size of 10-15 diameters of the tested rods, while the inner space of the coupling, after installing the reinforcement, is filled with cold hardener (the composition is not specified), moreover, to exclude the outflow of hardener at the ends couplings are installed plugs (see GOST 31938-2012 "Composite polymer reinforcement for reinforcing concrete structures").

Disadvantages - the complexity and energy consumption of the manufacture of samples, the difficulty of controlling the quality filling of the cavity inside the pipe, the inability to control the necessary adhesion forces between the sample and hardener.

Also known is a sample for testing composite reinforcement in tension, containing a rod provided with a thickening of the ends made by winding the composite fiber on a polymer binder, the length corresponding to the length of the gripping device of a tensile testing machine (see Ru№148118, IPC E04C 5/07, 2017). . The capture is made in the form of a layer of basalt-plastic fiber wound closely around the test rod at an angle of 45 ° to its axis. Each winding layer is coated with epoxy resin, the direction of the winding angle of each layer is changed by 90 ° (cross winding), the number of winding layers depends on the diameter of the composite reinforcement.

The disadvantages are the complexity and energy consumption of the manufacture of samples due to the need for winding with one thread, the high material consumption of the manufacture of samples, the high level of non-design destruction of the samples during testing.

The problem the utility model aims to solve is to reduce the laboriousness and energy intensity of manufacturing samples and increase the reliability of the thickenings at the ends during testing.

The technical result consists in the strong retention of a sample of composite reinforcement in the gripping device of a tensile testing machine during axial tensile testing, as a result of which a high probability of a rod breaking in the region between the clamps is achieved.

To solve the problem, a sample for testing composite reinforcement in tension, containing a rod equipped with a thickening of the ends made by winding a composite fiber on a polymer binder, the length corresponding to the length of the gripping device of a tensile testing machine, characterized in that the winding is made of tape whose width is equal to the length of the gripping devices, the fabric is made of composite fiber used for the manufacture of the rod, while the tape is impregnated with a binder used for For the formation of the rod.

A comparative analysis of the essential features of the proposed technical solution with the essential features of analogues and prototype indicates its compliance with the criterion of "novelty."

Moreover, the set of distinguishing features of the utility model formula makes it possible to layer-by-layer formation of homogeneous thickenings at the ends of the rod, while the adhesion forces of the thickenings to the rod exceed the tensile forces created in the sample when it is stretched and ensure the integrity of the thickenings and the solidity of their connection with the rod, which allows you to firmly hold the sample composite reinforcement in the gripping device of a tensile testing machine during axial tensile testing, resulting in a high probability spine rod in the gap between the clamps.

The drawing shows a sample for testing composite reinforcement in tension, consisting of a rod of composite reinforcement 1, and thickenings 2 at its ends.

In this case, the thickenings 2 at the ends of the rod of the composite reinforcement 1 have a length equal to the length of the gripping device of a tensile testing machine (not shown in the drawings) and are made by winding a tape whose width is equal to the length of the gripping device. In this case, the tape fabric is made of composite fiber (for example, fiberglass or basalt fiber, etc.) used for the manufacture of rod 1, and a polymer binder (for example, epoxy resin) is used to impregnate it, the same as that used to form the rod 1 A tensile testing machine is no different from machines of a similar purpose.

The test method is as follows.

The sample is mounted in a tensile testing machine so that the wrapped ends of the rod 1 forming the bulges 2 are firmly fixed in the gripping device of the tensile testing machine to prevent slipping of the sample. After the sample is fixed, an increasing tensile force is applied to it until it completely ruptures, which should occur in the region close to the middle of the rod.

Claims (1)

A sample for testing composite reinforcement in tension, containing a rod provided with thickenings at the ends made by winding the composite fiber on a polymer binder, with a length corresponding to the length of the gripping device of a tensile testing machine, characterized in that the winding is made of tape whose width is equal to the length of the gripping device, this fabric is made of composite fiber used for the manufacture of the rod, while the tape is impregnated with a binder used to form the rod.

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