RU1779975C - Method for determining fluidity force during tensile tests of wire specimen - Google Patents

Abstract

The invention relates to a testing technique, and in particular to methods for determining the mechanical properties of materials. The aim of the invention is to increase the accuracy of determining the force upon the occurrence of plastic deformation in the local area of the wire sample. As a parameter characterizing the deformation, use the electrical resistance of the sample. The yield stress is determined at the moment of unbalance of the Winston bridge, the shoulders of which are adjacent sections of the working part of the sample. 1 s.p. f-ly.

Description

The invention relates to test methods and can be used in the metallurgical industry, in particular in the hardware industry, as well as in the cable and electrical industries.

The aim of the invention is to increase the accuracy of determining the force and, thus, the yield strength of the material of the wire or tape.

The sample is fixed in the grips of a tensile testing machine, the working part of the sample is connected via contacts as a shoulder to the Wheatstone balanced bridge circuit with a power source and a zero indicator.

In the known method, the yield strength is determined by the criterion of residual elongation of the sample, measured with a given accuracy after unloading. At the same time, the minimap force at which initial plastic deformation occurs is not captured. However, this parameter most reliably determines the performance of the sample material.

The essence of the invention lies in the fact that as a criterion of initial plastic deformation, a change in the electrical resistance in the local area of the working part of the sample, caused by plastic flow, in comparison with the elastically stressed remaining area of the working part of the sample is adopted.

A local change in electrical resistance is detected by including the working part of the sample as four shoulders in the Wheatstone balanced bridge circuit, and the local yield stress is determined at the moment the bridge is unbalanced by a zero indicator.

Example. A sample of riveted steel wire with a thickness of 1.05 mm and a length of 900 mm is installed in an FPZ-10 tensile testing machine. Five clips of the crocodile type are mounted on the working part of the sample. The clamps are connected to a power source on

WITH

XI XJ

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0.5 A and to a self-recording voltmeter Н399 to a limit of 5 mV according to the scheme of the Wheatstone bridge. the portions of the sample between the clamps being the shoulders of the bridge. A preliminary loading of the sample is given; by moving the average clamp along the sample, the null indicator is reduced to zero. Loading continued. The test was carried out with a record of the tensile diagram. The unbalance of the bridge occurred at the moment preceding a distinct break in the curve recorded in the diagram.

Thus, the method ensures the detection of the maximum allowable load of the product from the sample material with increased accuracy and reliability,

In addition, the method simplifies testing by eliminating the operation of unloading the sample and measuring the length of the working part to determine the residual elongation.

The method is suitable for testing wire, cold rolled and flattened tape, including for electrical purposes.

Claims (2)

1. A method for determining the yield strength when tensile testing a wire sample along which the sample is stretched, a parameter characterizing the deformation of the working part of the sample is measured, and the yield stress at the moment of the plastic deformation of the working part is determined, characterized in that, with In order to increase the accuracy of determining the yield strength by recording its value when plastic deformation appears in the local area of the working part of the sample, an electron is used as a parameter characterizing the deformation resistance of the sample is measured at the contiguous portions of the working part, and the occurrence of plastic deformation is determined by the occurrence of variations increments electrical resistance of a section of the working portion relative increments electrical resistance of each of the remaining sections. 2. The method according to claim 1, characterized in that adjacent sections of the working part of the sample are included in the electric circuit according to the balanced Winston bridge circuit.