SU1597715A2 - Method of checking quality of piezoelectric materials - Google Patents

Abstract

The invention relates to non-destructive testing and can be used to determine the quality of solid powder materials with piezoelectric properties according to the parameters of an electro-acoustic echo signal. The purpose of the invention is to expand the scope of use by enabling the control of low quality materials. During the action of a high-frequency electric field in a two-pulse mode, the temperature of the powder under investigation is changed to achieve the highest value of the electro-acoustic echo signal, and the powder is placed in a sealed ampoule before the high-frequency electric field in such a quantity that the free volume in the ampoule does not exceed one-tenth of a volume powder. 1 hp f-ly.

Description

The invention relates to non-destructive testing and is an improvement of the invention according to the author. St. No. 1252719.

The purpose of the invention is to expand the field of application by enabling the control of low-quality materials.

When controlling the quality of piezoelectric materials, the powder material under study is subjected to a high-frequency electric field in a two-pulse mode, an electroacoustic echo signal is recorded by the material, the amplitude and the relaxation time of this signal are measured, and compared with reference values and

Based on the comparison, the quality of the material is determined.

The dd quality control of low-grade powder materials in the process of applying a high-frequency electric field in a two-pulse mode changes the temperature of the powder under study to achieve the highest electroacoustic echo signal, and the powder is placed in a sealed ampoule in such a quantity that the free volume is the ampoule did not exceed one tenth of the volume of the powder.

The need to seal the powder and limit the free volume in the measuring ampoule is associated with

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rotation effect of atmospheric moisture on the echo when the temperature changes. For example, at. lowering the condensation temperature of moisture on the powder grains reduces the values of the parameters of the echo signal and if a sufficiently large amount of moisture can disappear the echo signal. Studies of the effect of atmospheric moisture condensation on the echo in powders of cubic boron nitride as the temperature of the powder decreases to the temperature of liquid nitrogen (77 K) showed that the effect of moisture condensation can be neglected if air is contained in a closed ampoule with a powder. not exceeding one tenth of the volume of the powder.

Giving the powder the desired (optimal) temperature using standard thermostatic techniques can complicate the quality control method, depriving it of simplicity and efficiency. This complication is avoided by placing the powder ampoule in an environment with a readily maintained fixed temperature, close to the optimum temperature and differing from it in sign as well as the optimum temperature differs from room temperature. In this case, the optimum temperature falls into the plug between room temperature and the fixed temperature of the thermostat used. If the echo measurements are carried out continuously, starting from the moment the ampoule is immersed in the thermostat, the size of the echo signal continuously increases, passing through a maximum as the optimum temperature passes. Due to the relatively low thermal conductivity of powdered materials, the achievement of the powder thermostat temperature when the volume of the powder in 1 - 2 cm occurs in a few minutes. This time is sufficient to register the maximum value of the echo signal, regardless of the degree

thermostat temperature deviation from the optimal temperature. However, the magnitude of the echo signal at the maximum is higher, the smaller the non-uniformity of heating (cooling) of the powder when passing through the optimum temperature, since in this case a large proportion of the powder passes simultaneously through the optimum temperature. This condition is the better, the closer the optimum temperature is to the temperature of the thermostat. Knowing the optimum temperature for a material as a fixed, easily maintained thermostat temperature, choose the boiling point of a suitable liquid or the melting point of a suitable substance.

Thus, the proposed method allows to expand the scope of application of the method of quality control of piezoelectric materials by providing the ability to control low-quality powder materials.

formula of invention

Claims (2)

1. Method of quality control of piezoelectric materials according to ed. St. No. 1252719, characterized in that, in order to expand the field of application by controlling low-quality materials, the temperature of the powder under investigation is changed in a two-pulse electric field in a two-pulse mode to achieve the highest value of the electroacoustic echo signal. 2. A method according to claim 1, characterized in that, in order to increase reliability, the powder is subjected to a high-frequency electric field in a two-pulse mode before being exposed to a high-frequency electric field in such an amount that the free volume in the ampule does not exceed one tenth of the powder volume .