SU1677611A1 - Method of determination of acoustic resistance of porous materials - Google Patents

Abstract

The invention relates to non-destructive testing. The aim of the invention is to increase the sensitivity and accuracy. Through a reference liquid wetting the surface of the material under study, with its pores fully filled, they emit ultrasonic vibrations in the direction of the surface, receive signals reflected from this surface and signals reflected from the bottom of the surface irregularities of the material under study. Next, the reflection coefficients of ultrasound are determined by the parameters of the received signals at two different values of the acoustic resistance of the reference fluid, taking into account which one finds the desired parameter.

Description

(L

WITH

The invention relates to the field of non-destructive testing and can be used with ultrasonic testing.

The aim of the invention is to increase the sensitivity and accuracy.

The method for determining the acoustic impedance of porous materials is carried out as follows.

Through a reference liquid wetting the surface of the material under investigation, with full filling of its pores, emit ultrasonic oscillations in the direction of the surface, receive signals reflected from this surface and signals reflected from the bottom of the surface irregularities of the material under study, determine the coefficients RI and R2 reflections at two different values of Zi and 2.2 acoustic resistance of the reference fluid, and

the acoustic resistance Z of the material under study is determined by the formula

 Zi -2z Ri + R2, g (g -2.2 x2

2

2

Ri + Rz

R2-R1

2

x () 2 + z, z2J

-tf

1/2

R2-R1 (1)

Upon reflection of ultrasonic vibrations from the boundary consisting of areas with different acoustic impedances, the amplitudes of the AO and AI of the incident and reflected oscillations are related by the relation

C VI VJ

ABOUT

 + (1 -a) Ri2.

(2)

where o: is the specific area of the contact boundary with the dense part of the material under study, Rn and Ri2, respectively, the amplitude coefficients of ultrasound reflection from the parts of the boundary falling on the raft

the lowest part of the material under study and the reference liquid. On the other hand, Z-Zi

(3)

Z + Zi

When the acoustic resistance of the reference liquid is 2.2, the ratio (2) taking into account (3) we write in the form

 "-Fqpf + O -a) Ra I)

The coefficients Ri2 and R22 are the values of the reflection coefficients Rn and Rai, converted from the load towards the source of oscillations to the distance of the effective elongation of the pores of the surface of the material under study, i.e.

Rl2 kRnnR22 kR2l, (5)

where k is the conversion factor.

Insofar as

R1 Ai / A0 and R2 A2 / A0, (6) rfle Ri and R2 are the total (integral) measured reflection coefficients, taking into account (5), we obtain

about Z + Zi p Z + Z2

RlT zr-R2T Z2C7)

where follows the calculated ratio (1). Thus, the implementation of the method takes into account the signals reflected

from the bottom of the surface irregularities of the material studied ultrasonic vibrations, which increases the sensitivity and accuracy of measurements.

Claims (1)

Claims The method for determining the acoustic impedance of porous materials consists in emitting ultrasonic vibrations in the direction of the acoustic contact boundary between the reference and test materials, receiving signals reflected from the specified boundary, and determining the ultrasound reflection coefficients for two different acoustic impedance values of the reference material considering which determine the desired parameter, characterized in that, in order to increase sensitivity and accuracy, additionally take the signals reflected from the bottom of the surface irregularities of the material under study, the values of which are taken into account when determining the values of the reflection coefficients, and a liquid wetting the surface of the material with its full pores is used as a reference material.