SU365622A1 - METHOD FOR DETERMINING THE STRENGTH OF MATERIALS - Google Patents

Description

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The invention relates to the field of researching the strength properties of materials.

The method of determining the strength of materials is known, which consists in pressing an indenter into the material under test, determining the size of a print, and choosing a coefficient, calculating the tensile strength.

The disadvantages of this method are low accuracy and complexity of its application due to the complexity of the choice of the coefficient corresponding to the material under test.

The purpose of the invention is to simplify the method and increase its accuracy.

This is achieved in that the indenter is pushed under a continuously increasing load to a value corresponding to the maximum voltage in the contact zone, and the depth of penetration of the indenter into the material under test is recorded, and the tensile strength and depth corresponding to the maximum voltage are determined .

The drawing shows a functional diagram of the device with which the proposed method can be implemented.

The device contains a loading mechanism 1, a load sensor 2, a depth sensor 3, a computing unit 4 and a recording unit 5.

The device works as follows.

2

The loading mechanism / continuously and smoothly presses the indenter into the test material, sensors 2 and 3 continuously record the values of the load and depth of penetration of the indenter. The signals from sensors 2 and 3 are fed into a calculation block 4, which determines the values of the voltages in the contact zone:

R

H

TiDfi

where I is the voltage, P is the load, D is the diameter of the indenter, h is the depth of the imprint.

The total signal from the computing unit 4 enters the registering unit 5, which fixes the value of the maximum voltage and determines the value of the ultimate strength according to the following relationship:

Og z

where av is the ultimate strength; Yatah is the maximum voltage.

Subject invention

The method of determining the strength of materials, which consists in indenting an indenter into the material to be tested and determining the size of a print, characterized in that, in order to simplify and increase

accuracy of determination, when the indenter is pushed in, the load is continuously increased to a value corresponding to the maximum voltage in the contact zone, and the depth of the print is recorded, and the ultimate strength is determined from the load and depth values corresponding to the maximum voltage.