SU1298640A1 - Method of determining dynamic modulus of coating elasticity - Google Patents

Abstract

The invention relates to the field of controlling the physicomechanical properties of materials and can be used to determine the elastic modulus of coatings. The aim of the invention is to improve the accuracy by determining the intensity of the destruction of the coating in a liquid in the cavitation mode. At the end of the magnetostrictive transducer 1, sample 3 with coating 4 is fixed. A part of sample 3 with coating 4 is immersed in container 5, Cavitation is created in liquid 6, and the dynamic elastic modulus of coating 4 is determined by the intensity of destruction and density of coating 4. 1 pc. 0} {1 atdaiz1tsa water about iS (L to ko 00 O5 N

Description

The invention relates to the control of the physicomechanical properties of materials and can be used to determine the elastic modulus of coatings used as anti-cavitation, anti-corrosion or heat-shielding agents for protection of vibro-loaded parts.

The purpose of the invention is to improve the accuracy by determining the intensity of the destruction of the coating in a liquid in the cavitation mode,

The drawing shows a scheme for implementing the method for determining the dynamic modulus of elasticity of coatings.

Magnetostrictive transducer 1 is electrically connected to ultrasonic generator 2. At the working end of the magnetostrictive transducer 1 is fixed by a threaded connection, for example, sample 3 with coating 4. Part of sample 3 with coating 4 is immersed in a container 5 filled with liquid 6.

The method for determining the dynamic modulus of elasticity of coatings is carried out in the following manner.

From the ultrasonic generator 2 to the magnetostrictive transducer 1, an alternating voltage is applied with a frequency ω equal to the resonant frequency of the transducer 1, thereby exciting longitudinal ultrasonic oscillations in the transducer and in sample 3 with coating 4. Powerful ultrasound-35 using ultrasonic vibrations

by vibrations (the amplitude of the displacement at the end of the transformer is 10 m), cavitation is excited in the liquid 6. The amplitude of oscillations during a given time interval is kept constant. Sample 3 is removed from transducer 1, the intensity of destruction is gravitationally determined.

Editor M. Blanan

Compiled by I. Ardashev

Tehred L. Serdyukova, Corrector I. Muska

Order 882/46 Circulation 777 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

Coating 4, for which it is made superior to the sample before and after testing. Then, the dynamic elastic modulus of the coating is determined by the intensity of destruction and the density of the coating by the formula

E

whether

(uV)

0.72

t,

Where

 3,840 - p

I is the density of the coating, uV is the intensity of the destruction of the coating, m / h; specified time interval equal to, for example, 1 h.

t -

0

five

0

Thus, the proposed method makes it possible to increase the accuracy of determining the dynamic elastic modulus of a coating by determining the characteristics of the destruction of the coating in a cavitating fluid.

Claims (1)

Invention Formula The method of determining the dynamic modulus of elasticity of the coatings, which consists in excising ultrasonic vibrations in the sample in a sample and determining the dynamic modulus of elasticity, which differs from the fact that, in order to improve the accuracy, the controlled sample from the coating is placed in a liquid liquid cavitation the transducer, the amplitude of oscillations during a given time interval. support a constant, the intensity of the destruction of the coating is determined gravimetrically, and the dynamic modulus of elasticity is determined by the intensity of destruction and the density of the coating.