SU1569666A1 - Device for measuring hardness - Google Patents

Abstract

The device relates to a test technique, namely, the measurement of hardness by the method of elastic rebound. The purpose of the invention is to increase the reliability of the device due to contactless lifting and release of the indenter. The rise of the indenter 2, attached to the end of the single-arm lever 3, is carried out by an electromagnet 8 connected to a voltage source through a variable resistor 9. After releasing the indenter by disconnecting the magnet, it hits the material under study. The speed of movement of the indenter in a series of rebounds is recorded using an inductive sensor and a recording unit, and the hardness is estimated from it. 1 il.

Description

The invention relates to a test technique, namely to measuring the hardness of materials by the method of elastic rebound.

The purpose of the invention is to increase reliability due to the contactless lifting of the indenter.

The drawing shows a diagram of the proposed device.

The hardness measuring device comprises a housing 1, an indenter 2, an indenter moving mechanism mounted on the housing, made in the form of a One-armed lever 3, on the free end of which an indenter 2 is fixed, and · a flat spring 4 interacting with the lever 3 and the housing 1, a parameter registration sensor the movement of the indenter 2, made in the form of a Core 5, fixed at the midpoint of the one-arm lever 3, and the Inductance coil 6 covering it, the second core 7, mounted on the inactive end of the indenter, the electromagnet 8, is fixed d on the housing and interacting with the second core 7, a variable resistor 9, connecting the electromagnet 8 with a voltage source (not shown), and a registration unit made in the form of a series-connected amplifier 10, detector 11 and indicator 12.

The device operates as follows.

After the device is installed on the test material, voltage is applied to the electromagnet 8. The field created by it attracts a second core 7 made of ferromagnetic material. As a result, the free end of the lever 3 rises to the stop in a flat spring 4. The elasticity of the spring 4, and therefore the impact force of the indenter 2, is determined by the interaction force of the core 7 and electromagnet 8, the value of which depends on the direct current flowing through the coil of electromagnet 8, and is regulated by means of a variable resistor 9 ·. When the electromagnet 8 is turned off, the lever is 3 s. the indenter 2 are released, and the indenter 2 strikes the test material. As a result of the impact, a series of bounces decrease in amplitude. At the moments of rebounds of the indenter 2 and, accordingly, of the core 5, made in the form of a magnet with a high coercive force, an EMF is proportional to the velocities of the rebounds in the inductor 6. The signals from the coil 6 are fed to the amplifier U and detector 11. The detector passes the EMF induced by the rebounds of the core, but does not pass the EMF induced by its drops, which increases the measurement accuracy. Next, the signals are fed to the indicator device 12, in which, by known methods, their amplitude or duration is measured and digitized. Digital data is sent to the indicator or to external circuits for subsequent registration and processing.

Claims (1)

Claim The device for. hardness measurements, comprising a housing, an indenter, an indenter movement mechanism mounted on the housing, made in the form of a one-arm lever, on the free end of which an indenter is mounted, and a flat spring interacting with the lever and the housing, an indenter movement registration sensor made in the form of a core and covering its inductor, and the registration unit, characterized in that, in order to · increase reliability, the device is equipped with a second core mounted on the inactive end of the indenter, fixed an electromagnet interacting with the second core on the case and a variable resistor designed to connect the electromagnet to a voltage source, and the sensor core is fixed at the midpoint of the one-arm lever.,