SU362224A1 - DEVICE FOR DETERMINATION OF PHYSICAL PROPERTIES - Google Patents

Description

one

The proposed device is intended to diagnose ore and rock-forming minerals, as well as to determine the physical properties of other solids in microzones.

By "hardness" is meant the ability of solids to resist mechanical action as a result of their inherent elasticity, ductility, ductility, strength, brittleness, and other physical properties. Thus, hardness is a complex constant and cannot be exhaustively characterized by any one method of action.

There are known methods of determination based on measuring the area or diagonal of a print in an object under investigation by the action of a static load P. The load P for different materials is different. The exposure time of the load P through the indenter to the sample tends to be standardized (usually from 10 to 30 seconds). Fingerprint measurement is performed using a microscope, which is an indispensable component of hardness testers that work according to this principle.

The imprint method is suitable only for relatively homogeneous areas or mineral grains. If there are visible or hidden irregularities in the zone of action of the indenter, the values of the hardness index are strongly distorted and cannot be corrected.

The locality of the method is not high enough as the skull is conducted using the size of the print, as a result of which npi, increasing the size of the print increases the measurement error. In addition, it is difficult to standardize the measurement conditions for the npi application of this demolition, since loading for different materials must be different; at the same time, the various physical properties of the mineral (uniformity, elasticity, etc.) are differently iro5, which leads to a significant deviation from the linear dependence of the values of the imprints on the applied loads. It is also not used fully to diagnose minerals and other solid objects, information on the index of indicators characterizing the physical properties of the object under study (for example, electronic, state, width of the forbidden zone, etc.).

The proposed device for determining the physical properties of solid materials is free from the indicated disadvantages.

The device allows to obtain more information about the object under study for the account of more differentiated use of physical parameters than for domestic and foreign applications currently used.