SU665245A1 - Microhardness meter - Google Patents

Description

one

The invention relates to the field of measurement technology, in particular to devices for measuring microhardness.

A known device for measuring microhardness, comprising an indenter, a loading device, made in the form of an electromagnet with a core, a sensor for moving an indenter, a mechanism for moving a sample, a microscope and a reading device 1.

The closest in technical essence and the achieved result to the invention is a device for measuring microhardness, containing a loading device, made in the form of a magnetoelectric system, including a permanent magnet and rotatably mounted frame with a winding, brushes with an indenter and a table for fixing the sample 2.

A disadvantage of the known devices is the low accuracy of microhardness measurement at low values of forces, due to the high value of the minimum allowable load on the indenter.

The purpose of the invention is to improve the measurement accuracy at low values of forces.

This is achieved by the fact that the table for securing the sample is mounted vertically, the indenter is horizontal, and the indentor bar is made in the form of a lever connecting the frame with the indenter.

The drawing shows a diagram of the proposed device.

The device contains a loading device made in the form of a magnetoelectric system, including a permanent magnet 1 and a rotatably mounted frame 2 with a winding, a rod in the form of a lever 3, an indenter 4 and a vertical table 5 for securing the sample 6.

The device works as follows. When a constant electric current passes through the frame 2, a torque acts on it, which is transmitted by the lever 3 to the indenter 4. The indenter 4 is pressed to the surface of the sample 6 by a force proportional to the current flowing through the frame 2. The current and the force of the indenter 4 are pressed to The surfaces of sample 6 are adjusted until individual dislocations in the sample 6 are located along the trace of the indenter 4, detected by dislocation etching.

The minimum pressing force, which, in sample 6, shows individual dislocations, is a measure of the microhardness of the material.

The horizontal arrangement of the indenter and the vertical arrangement of the table avoids the need for balancing the self-weight of the indenter and improves the accuracy of setting the indenter pressing force to the sample. The use of the lever makes it possible to arrange the magnetoelectric loading system separately from the indenter, which significantly reduces the weight of the indenter and reduces the limit of the range of pressing forces.

Claims (1)

Invention Formula A microhardness tester, containing a loading device made in the form of a magnetoelectric system, including a permanent magnet and a rotatably mounted frame with a winding, a rod with an indenter and a column for fixing the sample, characterized in that in order to improve the measurement accuracy at small values The forces, the sample table is mounted vertically, the expander is horizontal, and the indenter bar is made in the form of a lever connecting the frame with the indenter. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 386316, cl. G 01N 3/46, 1973. 2 USSR Author's Certificate No. 210439, cl. G 01N 3/42, 1968.