SU1718008A2 - Material strength testing specimen - Google Patents

Abstract

The invention relates to a test technique and can be used to estimate the strength of a material under conditions of shear, tension, and under the combined action of normal and tangential stresses; The sample is T-shaped and consists of a stand 1 and a crossbar 2 with a rectangular notch 3 symmetrical about the axis 3. Symmetric cuts are made on two opposite faces of the sample, which are angled to the faces perpendicular to the axis of the sample. The edges of the side walls of the cutout 3 are connected to each other by rigid jumpers, which improves the accuracy of the tests by increasing the uniform distribution of stresses along the length of the working sections with notches & E, 4 mud.

Description

J

L. H Sch & U7 {9) -1L

i

00

eight

00

N3

The invention relates to a testing technique, can be used to determine the strength of materials under the conditions of shear, stretching and under the joint action of normal and tangential criteria, and is improved by the device according to the author. St. No. 1472801.

A known T-shaped sample with a cutout symmetrical about its axis is a depth less than the thickness of the crossbar, the plane of which is parallel to the outer face of the crossbar and its inner bearing surfaces, is intended for contacting with the loader. The sample has two working sections, symmetrical about its axis and located in the planes of cuts, made from opposite large faces of the sample and connecting the support surfaces of the crossbar with the plane of the bottom of the notch.

The disadvantage of this sample is the uneven distribution of stresses along the length of the working sections, which is due to the influence of the bending moment that occurs when the sample is loaded, which reduces the accuracy of the material strength estimate.

The aim of the invention is to improve the accuracy of the evaluation of the strength of the material by increasing the uniform distribution of stresses along the length of the working sections with notches.

To achieve the goal in the sample to assess the strength of the material, the side walls of the cutout are rigidly connected to each other by bridges.

FIG. 1 given sample; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a sample loading circuit; in fig. 4 shows a section BB in FIG. 3

The sample is T-shaped and consists of a stand 1 and a crossbar 2 with a rectangular notch 3 symmetrical about its axis. On two opposite edges x 4 and 5 of the sample, symmetrical supra, cuts 6–9 are made, connecting the tops of the inner corners cutout 3 and sample. The plane 10 of the cutout 3, intended for contacting the loader, is located between the free plane 11 of the crossbar 2 parallel to the plane 12, which is designed to be scanned and located between the plane 10 and the end face t3

stand 1, which makes it possible to designate the length of notches 6-9, regardless of the angle of inclination "(Fig. 1) and the size of the crossbar 2 in the direction of the sample axis, and provides testing under stress conditions in working sections with notches 6-9 from net shear (a 0 °) to the net separation (a 90 °). The side walls of the notch 3 are connected to each other by jumpers 14 and 15, the latter are not connected to the plane 10 of the notch 3. The thickness of the jumpers 14 and 15 can be selected within the depth range for better uniformity of load transfer to the working sections with notches 6-9.

notches 6-9 (Fig. 2).

The sample is tested as follows.

The sample is mounted on supports 16 and 17. The edges of which are aligned with the edges of the notches 6–9. The load P is transferred to the bottom 10 of the notch 3 by means of a rectangular punch 18 placed between the walls of the notch 3 and the inner surfaces of the bridges 14 and 15. The load P is increased until the specimen is destroyed over the working sections with notches 6-9 and the value of the breaking load is estimated material strength.

The use of bridges 14 and 15 connecting the side walls of the notch 3 of the sample increases its flexural rigidity, which ensures a more even distribution of normal and tangential stresses along the length of the working sections with notches 6–9 compared to the prototype.

The use of the present invention will improve the accuracy of determining the strength of materials, which will give a positive effect.

Ф о р м street but from gaining

Sample for assessing the strength of the material by ed. St. No. 1472801, excluding the fact that, in order to improve the accuracy of the material strength assessment by increasing the uniform distribution of stresses along the length of the working sections with notches, the side walls of the cutout are rigidly connected to one another.

Iff 5

2

Ј.

r TUj

Yag, 3:

Fy

Claims (1)

Claim A sample for assessing the strength of the material according to ed. St. No. 1472801, with the fact that, in order to increase the accuracy of evaluating the strength of the material by increasing the uniformity of the stress distribution along the length of the working sections with notches, the side walls of the cutout are rigidly connected to each other by jumpers. B-6 R Riga #