SU1605177A1 - Specimer for checking adhesion strength of materials in twisting - Google Patents

Abstract

The invention relates to the strength testing of materials and can be used in metallurgical production in quality control of bimetallic strips and tapes obtained by various methods. The aim of the invention is to improve the accuracy of control of the adhesion strength of materials when twisting. The sample is made in the form of a substrate with a cladding layer deposited on it, the thickness of which is from 0.04 to 0.3 sample thickness. An annular slot is made in the cladding layer and a linear one in the substrate, which is perpendicular to the twisting axis and oriented along the diametrical plane of the cylinder formed by the annular slot. The test section is the plane of the joint between the cladding layer and the substrate. The adhesion strength is judged by the number of twists that the specimen withstands when a pair of forces are applied to it until fracture. 2 Il.

Description

The invention relates to the field of strength testing of multilayer materials and can be used in metallurgical production in the quality control of bimetallic strips and tapes obtained by various methods.

The aim of the invention is to improve the accuracy of controlling the adhesion strength of materials when twisting by uniformly distributing the fracture tangential stresses when twisting.

On fiq. 1 shows a sample to control the adhesion strength of materials, cross-sectional side view; on 4ig. T - the same test section.

The sample to control the adhesion strength of the materials is made in the form of a substrate 1 with a cladding layer 2 deposited on it, with an annular slot 3 on the side of the cladding layer, the outer diameter of the slot being no less than the width of the sample, and the inner diameter not exceeding the width of the sample . On the side of the substrate, a linear slot 4 is made in the sample. Linear slot is made perpendicular to the twisting axis and runs along the diametrical

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the plane of the cylinder formed by the annular slot.

The test section is located on the surface of the joining layers, and the thickness of the cladding layer is from 0.04 to 0.3 times the thickness of specimen N.

The sample is tested as follows.

One end of the specimen is fixed in place. A pair of forces are applied to the other end of the sample in a plane perpendicular to the plane of the joining of the layers. A couple of forces are applied to those. until the sample is broken. The measure of strength is the number of twists that the sample withstands before fracture. When making cuts on two opposite sides of the proposed sample, the test zone (shsh connection zone) is represented by. There are two identical semicircles

Split between each other by a linear slit 2, where D is the smaller diameter of the annular slit 1 (. Or the diameter of the cylinder formed by the annular slit); T is the width of the linear slot; B is the width of the sample; n 3.14 - constant {FIG. 2). The area of the joint zone P should be chosen from the following consideration: the stresses leading to the destruction of the joint should be less than the stresses that destroy the softest

layer.

Example A sample of size 1 mm was cut from a bimetallic strip (I1 steel was used as the base, L90 brass was used as a coating, the coating thickness was 25% of the package thickness). From the side of the coating

an annular slot was made with a depth of 2.5 mm, a diameter of 10 mm and a width of 1 mm. A 1 mm wide linear slot was made perpendicular to the twisting axis and oriented along the diametral plane of the cylinder formed by the annular slot. Linear slit was made at equal distance - 1Q Research Institute from the edges of the sample (center)

7.5 mm deep. Thus, the test section was located on the surface of the joint layers. This circumstance made it possible to evaluate the adhesion properties of a multilayer compound. The test of the multilayer sample with annular and linear slits was as follows. One end of the specimen was immobilized and a torque was applied to the other. The measure of adhesion was the number of twists before the joint was destroyed. In tests of bimetal steel II kp, brass L90 at room temperature, the number g 25 twists until the connection was destroyed was 1.38 + 0.02; which indicated a high accuracy of control.

invention formula

thirty

A sample for controlling the adhesion strength of materials when twisting, made in the form of a substrate with a protective layer deposited on it, in which through cuts are made perpendicular to the plane of the joint, while the slot in the substrate is in the transverse direction, characterized in that increase the accuracy of control, the thickness of the cladding layer is from 0.04 to 0.3 times the thickness of the specimen, the slot in it is made annular, its outer diameter is not smaller, and the thickness of the specimen is not more than the width of the substrate, and the cut in the substrate e is located along the diameter of the annular slot ..

invention formula

A sample for controlling the adhesion strength of materials when twisting, made in the form of a substrate with a protective layer deposited on it, in which through cuts are made, perpendicular to the plane of the joint, while the cut in the substrate is in the transverse direction, which is accuracy of control, the thickness of the cladding layer is from 0.04 to 0.3 times the thickness of the sample, the slot in it is made annular, its outer diameter is not smaller, and the thickness of the specimen is not greater than the width of the substrate, and the layer in the substrate is lying along the diameter of the annular slot ..

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Claims (1)

Claim A sample for controlling the adhesion strength of materials during twisting, made in the form of a substrate with a cladding layer deposited on it, in which there are through cuts perpendicular to the connection plane, while the slot in the substrate is located in its transverse direction, characterized in that, in order to increase control accuracy, the thickness of the cladding layer is from 0.04 to 0.3 of the thickness of the sample, the slot in it is made circular, its outer diameter is not less, and the inner one is not more than the width of the substrate, and the slot in the substrate is placed married along the diameter of the annular slot .. Figure 1 Figure 2