SU1348724A1 - Radiating piezoelectric converter for non-destructive check - Google Patents

Abstract

The invention relates to non-destructive testing and can be used for ultrasound testing of coarse-grained materials, for example concrete. The aim of the invention is to improve the accuracy in determining the speed of propagation of ultrasonic vibrations by registering the moment of introduction of ultrasonic vibrations into the product. A radiating piezoelectric transducer, equipped with an additional piezoplate 5, makes it possible to accurately determine the moment of emission of the signal due to the choice of materials and the thickness of the tread 3 and the lining 4. 1 sludge.

Description

The invention relates to non-destructive testing and can be used for ultrasound testing of coarse-grained materials, such as concrete.

The aim of the invention is to improve the accuracy in determining the speed of propagation of ultrasonic vibrations by recording the moment of input of the ultrasonic signal into the product.

The drawing shows a diagram of a radiating piezoelectric transducer.

The piezoelectric transducer radiating contains a piezoplate 2 placed in the housing 1 and a protector 3 and an overlay 4 connected to its opposite surfaces. The transducer is provided with an additional piezoplate 5 mounted on the free surface of the overlay 4, and the material and thickness d of the overlay are chosen from the ratio

 ODA

Si

THX

(one)

where dnp is the tread thickness,

CM Cnf, - ultrasonic speeds

fluctuations in the materials of the lining and tread, respectively.

The Converter operates as follows.

When an electrical voltage pulse is applied to the piezoplate 2, it begins to oscillate in thickness. At the same time, both surfaces of the piezoplates 2, connected to the protector 3 and the cover 4, emit ultrasonic signals. The signal emitted by the working surface of the piezoplate 2 passes through the protector 3 and is introduced into the test article. At the same time, the signal from the surface of the piezoplate 2, connected to the plate 4, reaches the surface of the additional piezoplate 5 and is converted into an electrical signal.

In connection with the choice of material and thickness d of the lining 4 from relation (1), the delay time in it corresponds to the delay time in the protector 3. As a result, when an electric pulse is applied to the transducer,

VNIIPI Order 5183/43

Random polygons pr-tie, Uzhgorod, st. Project, 4

the same moment of time radiates an ultrasonic signal into a controlled product and carries out an electric signal. The resulting electrical signal can be used to trigger a delay reference circuit, if the radiating transducer is used in an instrument for measuring the velocity of propagation of ultrasonic vibrations.

Since the delay time of the ultrasonic signals in the tread 3 of the radiating piezoelectric transducer is compensated in the transducer itself, with this choice of materials of the tread 3 and the lining 4 it is possible to fully compensate the delay time of the ultrasonic signals in a wide range of ambient temperatures, which increases the accuracy of measuring the delay time of the ultrasonic signals and hence their speed.

Thus, the use of a radiating piezoelectric transducer for non-destructive testing provides an increase in the accuracy of propagation of ultrasonic vibrations due to the high accuracy of determining the moment of their emission into the controlled product.

Claims (1)

Invention Formula five A radiating piezoelectric transducer for non-destructive testing, containing a piezo plate placed in the housing and connected to Q with its opposite surfaces a protector and an overlay, characterized in that, in order to improve the accuracy in determining the speed of propagation of ultrasonic vibrations, it is equipped with an additional piezo plate mounted on the free surface lining, and the material and thickness d lining selected from the ratio d CH - Etc ; where dnp CM, with pr five Circulation 775 tread thickness, ultrasonic vibration speeds in the lining and tread materials, respectively. Subscription