SU1642312A1 - Method of determination of hardness of materials with coats - Google Patents

Abstract

The invention relates to methods for studying the physical properties of substances, and specifically to methods for imparting hardness by pressing test device tips into test material. The aim of the invention is to increase the information content by determining the substrate hardness and coating hardness and reducing the method complexity by reducing the number of measurements characteristic values of hardness In the implementation of the method select at least three measurement results, in which the hardness value is measured a load change, and determining the value of coating hardness and n -lozhki. 1 tab.

Description

The invention relates to methods for studying the physical properties of substances, and more specifically to methods for studying hardness by pressing test tips into the material under test.

The purpose of the invention is to increase the information content by determining the substrate hardness and coating hardness, reducing the labor intensity by reducing the number of measurements of characteristic hardness values.

The method is implemented as follows.

EXAMPLE The determination of the hardness of the material and the coating was carried out on samples of 12X18H10T steel with a wear-resistant coating of titanium nitride with a thickness of 5 μm. 0.01; 0.1; 0.19 kgf When choosing the magnitude of the load, it was assumed that at each load the hardness value depended on the load value, i.e., so that each result was determined by both the hardness of the coating and the hardness of the substrate. The minimum load was determined by the empirical formula

Bj "and -

minimum load;

8 1 - coefficients proportional to the assumed hardness of the coating; tf - estimated hardness

cover

R. P (

a - 5-10- - b - 1.1-1.3

Where is the min

about

J

yo

oz

Yu

The maximum load must be at least 5 times greater than the minimum, since at lower values the measurement results approach each other, which increases the error in determining the hardness of the coating and the substrate

The maximum value of the maximum load is determined by the capabilities of the instrument on which the measurements are made

To simplify the subsequent calculations, it is advisable to carry out the third measurement at a load value close to the average between the selected maximum values of myo

A diamond tip in the shape of a regular tetrahedral pyramid with an angle between opposite faces equal to 136 o was used as an indenter.

The results of measuring the hardness H (kgf / mm) under various loads are given in the table below.

Determination of the substrate hardness was carried out according to

Hjj o h (j

where, N - measured value

hardness at each of the measurements under load

P g. P e ° Definition / b was made according to

dependencies N

 (| ELPf) JL In (H-V-N P; In (H, - - H0)

No h

Nz. - (ZIP, - hardness of coating dependency

H N

25

No

p +

In

"; -

Claims (1)

Invention Formula The method of determining the hardness of coated materials, which consists in measuring the hardness at different loads, selects the characteristic hardness values and from it determine the hardness of the coating, which differs so that, in order to increase the informativity and reduce the labor intensity, as characteristic signs of N 40 where H (, H2s and substrate hardness; - characteristic values of hardness, and hardness of the coating P g N N V H0 + exP | pZ; - -2-in (H; + HO) and1 ( Where ft - coefficient determined by dependence - (2lP;) Lln (НГН0) - In (Н, - - Н0 . ".Ia, --.- ..- .., where H is the substrate hardness, N is the number of measurements OBJ TG 2 NS: P; 45 H; PJ - load at i-th measurement - the integral value of hardness at a given value of the load P; on the i-th measurement „ five At least three measurements are taken for hardness, in which the hardness value varies with load, and the hardness is determined. III H g - 2NB ) where H (, H2s and H0 substrate hardness; - characteristic values of hardness, and hardness of the coating P g N N V H0 + exP | pZ; - -2-in (H; + HO) and1 ( Where H; - the integral value of hardness at a given value of the load P; on the i-th measurement „