SU386316A1 - DEVICE FOR MEASURING MICROTERVERSITY - Google Patents

Description

one

This invention relates to the field of measuring the microhardness of materials by indentation and scratching.

A known microhardness measuring instrument comprising an indentop, a loading device, an indenter movement sensor, a sample transfer mechanism, a microscope and a reading device.

The accuracy of the measurement of microhardness in these devices is influenced by the elastic properties of the material and its fluidity, as well as the large magnitude and inconsistency of the loading rate of the indenter at the moment of contact of the sample; the execution of the loading device and the reference system do not allow automation of the measurement process.

The purpose of the invention is to improve the accuracy of microhardness and automate the measurement process.

For this purpose, in the proposed device, the loading device is made in the form of an electromagnet with a core, a smoothly increasing current block connected to it, equipped with a loading rate regulator, and the indenter displacement sensor is equipped with a signaling device to achieve a predetermined depth.

In addition, in order to reduce the measurement time, the measles of the loading electromagnet are combined with the micro-chip tube.

The drawing shows a diagram of the device.

The device contains a loading device made in the form of an electromagnet /, the measles 2 of which is combined with the microscope tube with an eyepiece 3 and the objective 4. The anchor is fixed on flat spiral springs 5 and 5. The lens has a fixed indenter 7, the following lever 8 with the sensor 9 movement, connected to control unit 10. The electromagnet has two windings - balancing and working. The balancing winding is connected through the regulator II of equilibration of the core to the stabilized current source 12, and the working voltage to the block / 5 of smoothly increasing current equipped with the regulator 14 of the current rise rate, and to the meter 15 equipped with a switch indicator 16. Sample 17 is mounted on the table 18 and can be moved in the horizontal plane manually or automatically.

In the device It is advisable to use a conical indenter with an apex angle of 90 ° or less. In this case, the given constant depth of indentation of the indenter will be 10–15 µm. As a sensor to achieve a given depth, a contact or spring-optical sensor can be used.

The device works as follows.

After switching on, measles 2 is in the upper position. The regulator 11 smoothly reduces the current. At the moment of equality of forces in the givani

the core and its weight of the latter begins to gradually lower. The end of the follow lever 8 touches the sample 17 and the lever starts to turn.

At the moment of contact of the indenter with the sample, the sensor 9 sends a signal to the control unit 10, which turns on the unit 13 of a smoothly increasing current. The force created by this current, acting on measles, is opposite to the force created by the balancing winding. The load of the indenter smoothly increases. When the indenter reaches a predetermined depth, sensor 9 sends a signal to control unit 10, which turns off unit 13, and measles rises. The maximum current in the working winding of the electromagnet is measured by a peak meter 15, to which a dial indicator 16 is connected, on a scale of which the microhardness value is measured.

For continuous measurements, the sample automatically moves between the indentations, and a chart recorder is connected instead of the dial gauge.

The loading rate of the indentora is regulated by a regulator 14, which is a variable resistor, which regulates the charge current of the capacitor of the rising current unit.

In addition to the capacitor, this regulator includes a DC amplifier with a high-resistance input connected to the capacitor.

The design of the electromagnet is such that the force of the retraction of the core does not depend on the position of the core.

Subject invention

Claims (2)

1. A device for measuring microhardness, containing an indenter, a loading device, a sensor for moving an indenter, a mechanism for moving a sample, a microscope and a reading device, characterized in that, in order to increase the accuracy of measuring microhardness and automate the measurement process, the loading device is designed as an electromagnet with a rim connected to it, a unit of a smoothly increasing current, equipped with a loading rate regulator, and an indenter displacement sensor is equipped with a signaling device to reach a predetermined depth. 2. The apparatus according to claim 1, characterized in that the measles of the loading electromagnet are combined with the microscope tube. 1G