SU855426A1 - Device for testing specimens for breaking - Google Patents

Description

(54) DEVICE FOR TESTING SAMPLES FOR RIPPING

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The invention relates to a measurement technique and can be used in tensile testing of samples.

A device for testing specimens for breaking, containing clamps in the form of dies 1, is known.

However, only specimens of the type of “eights” can be tested on this device and it is impossible to test specimens of various sections without changing the dimensions of the device details.

Also known is a device for testing specimens for breaking, comprising a body made of two parts having grooves 2.

The disadvantage of this device is that the internal surfaces in contact with the samples have a curvature, so that only hardening materials can be tested in the devices. The device does not allow to load the sample uniformly along the length with a uniform load distribution over the cross section. The existing tapering in the middle of the device to Turn leads to stress concentrations and an uneven distribution of the breaking load along the entire section.

The purpose of the invention is to test samples of various lengths and uniformly load the sample along its width.

This goal is achieved by the fact that in a device for testing specimens for rupture, comprising a body made of

5 of two parts, grooves are U-shaped, which are open from the end and the sides and are made with extension in the direction of the latter, and at the ends of the sides of the case are mounted opposite

n friend plates, removable bolts.

FIG. shows the proposed device, a general view; in fig. 2 — projection of the device onto the frontal plane (front view); in fig. 3 - device projection

15 on the horizontal plane (top view); in fig. 4 — projection of the device onto the profile plane (side view).

The device consists of a housing 1, two parts of which are fastened with bolts 2 using plates 3 and nuts 4. In the case li

20, transverse grooves 5 are U-shaped in the middle of the ends, and through the center perpendicular to the upper and lower surfaces of the housing 1 are made through

bore 6 for applying breaking forces.

In the grooves 5, bolted 2 using plates 3 and nuts 4 halves of the housing 1, insert samples of brittle materials and in the form of plates without thorough preparation of their form, which in the expanded part of the grooves 5 are filled with epoxy adhesive.

After the samples with the expanded part of the grooves 5 have set with epoxy glue, the tension bolts 2 with the plates 3 are removed and, thus, the samples themselves hold both halves of the housing 1 together. Hardening solutions can also be poured into the grooves 5, which, after setting, can be tested for stretching.

The test is performed as follows. A through hole 6 at the interface of the housing 1 in the middle of the length, perpendicular to the housing 1 and the grooves 5, is applied with a rubber stopper (not indicated) for applying tensile forces to which the cylindrical forces entering the aperture 6 from compressing forces are applied to the top and bottom. coaxial punches (not indicated). At a certain limit value of the pressure inside the opening 6, the halves of the housing 1 are moved apart, destroying the samples by pure stretching. Moreover, the tensile strength (er test specimens

is according to the formula. ",.,

 ,

where P is the limiting pressure value

Ri holes 6, kgf / cm; i is the diameter of the hole 6, cm; f .- the length of the hole 6 on the housing 1, with j - the diametrical area of the hole 6,

5 - total, measured after the test, the surface area of the sample rupture, see

Separating the whole body 1 and the orifice 6 to apply tensile forces into two different halves, eliminating the grips and wedge greatly simplifies the testing of samples of fragile materials and hardening solutions. All sorts of imbalances, the misalignment of the application of tensile forces

is eliminated by the device design itself. The plot of tensile forces along the entire width of the specimen in the grooves 5 will be rectangular due to the greater rigidity of the metal halves of the housing 1 compared to the material of the test specimen, which ensures the correct determination of the tensile strength of brittle materials and hardening solutions for uniaxial stretching by the formula (5p PcLfi / S ,

The simplicity of the device does not require careful adjustments to the test sample, eliminates the time-consuming operations that are inevitable in the manufacture of a sample with a complex shape, and also does not require strict orientation of the sample axis along the tensile load, which always occur in known devices. The proposed device can be used to accurately determine the tensile strength of a large number of varieties of building materials, which will make it possible to determine the most rational and optimal sizes of structures and structures, leading to cost savings in the national economy.

Claims (2)

1. USSR author's certificate number 155310, cl. G 01 N 3/08, 1962. 2. USSR author's certificate 485352, cl. G 01 N 3/08, 1973 (prototype). one I Phi2.5