SU717612A1 - Specimen testing stand - Google Patents

Description

(54) DEVICE FOR TESTING SAMPLES

I

The invention relates to the field of construction and is intended for testing large-size samples of brick panels in a biaxially stressed state.

A device for testing specimens under complex stress conditions is known, including a bed with a working chamber, power cylinders, power plates and an injection system 1.

A disadvantage of this device is that it does not provide the possibility of conducting studies of masonry due to the small size of the working chamber. In addition, the lateral hydrostatic pressure on the sample is created by the fluid injected into the working chamber where the sample is placed, and in order that it does not cause the sample to prematurely degrade, penetrate into its pores, the sample must be worn in a protective jacket (paraffin, rubber film and etc.), taking into account the large sizes of the masonry samples, would be associated with significant and completely unjustified difficulties.

Closest to the invention, the technical solution is a device for testing samples, including a frame, a frame with power jacks, a distributor beam, between which the sample is placed, links connected to the crosspiece attached to the waist, and the stops 2.

A disadvantage of this device is that it does not allow testing large-sized specimens under conditions of simultaneous compression and stretching.

The purpose of the invention is to test large-sized samples under conditions of simultaneous compression and stretching.

 This goal is achieved by the fact that the device for testing specimens, including a bench, a frame with power jacks, a distribution beam and an emphasis, is equipped with a hinge-lever system with grips for the sample, and the distribution beam and the support are provided with Katkovy hinges. The invention is illustrated in the drawings. FIG. 1 schematically shows a general view of the device; in fig. 2 — equipment for stretching the sample.

The device includes a frame 1, pillars 2 and a bolt 3 of the frame on which the power cylinder 4 is installed, the distribution beams 5 and 6, stops 7 and 8, the power cylinder 9.

Distributing beam 5 is made in the form of a hinged-lever system of beams 10, the ends of which are provided with grippers P.

Distributing beam 6 is made with Katkov hinge 12, one of the stops 7 is made in the form of a hinged-lever system of beams 13, the ends of which are provided with grippers 14.

The frame of the device is made of two I-pieces No. 40.

- Distribution beam 6 is mounted on the trolley 15, which can be moved along the frame. The horizontal force of the power cylinder 9 mounted on the strut of the transom 2 is transmitted to the distribution beam 6 and creates compression.

Vertically stretched, its force from the left cylinder 4 through the distribution beam 5 is transferred to the sample.

The device works in the following way.

A 100 kn jack is installed on the frame girder, the ram piston rests on the beam 16. In the holes of the beam 16 and the bolt 3, glands 17 are passed, on which the system of distribution beam 5 is suspended, ending with clamps 11. : and mounted on the bed 1.,

. The installation of the specimen is carried out in the grippers and: Eat bolts 18. The grippers are held on the specimen by the frictional forces generated by the bricks and rubber gaskets of the grips. The sample is captured from two sides, for each brick, with the passage of mortar joints.

Compression of the sample is done with slop, 1 of the 2000 ka side jack, iodine is mounted on the screws 19 to the rack of the frame 2. The load is transferred through the distribution beam 6 installed

on trolley 15, for free movement.

If necessary, the device can perform simple stretching and uniaxial compression.

In the transition to compression tests, the jack 4 is removed from the bolt 3 of the frame and the distributor beam 5, replacing it with the same design as the distributor beam 6, which is suspended from the waist. The lower clamps attached to the frame are replaced with a roller joint.

The proposed design of the device allows to obtain reliable results when testing brick panels in a biaxial stress state. The device is convenient and easy to use. Sample preparation for testing and the tests themselves take no more than 2 hours in time, whereas compression-compression tests in known devices take up to three days.

The cost of manufacturing the device is 2.3 thousand rubles.

Claims (2)

1. Goncharov IG. The strength of stone materials, Gosstroyizdat, L., 1960, p. 60 2. Big P. M. study of strength, deformability and microdestructions of heavy and light concrete in a flat stress state. Theses for the degree of candidate of technical sciences. M., 1973, p. 3 fUZ.I and 3