SU538261A1 - Device for determining the parameters of the shock wave - Google Patents

Description

(54) DEVICE FOR DETERMINING THE PARAMETERS OF A SHOCK WAVE

The invention relates to a measuring and control technique, in particular, to devices used in studies of shock waves.

Devices for determining shock wave parameters are known, comprising a housing with a membrane connected to a pressure sensor in the form of a piezoelectric plate I. These devices are exposed to heat flow behind a shock wave, distorting the measurement results.

The closest technical solution to the invention is a device comprising an axisymmetric body with a membrane connected by a heat shield element to a pressure sensor in the form of a piezoelectric plate bonded to an acoustic waveguide 21. However, this device does not provide information on the direction of motion of the shock wave.

In order to obtain additional information about the direction of the wave front in a plane perpendicular to the axis of the body, the heat shield element is designed as a gap with symmetrically

body axis of the piezoelectric plates in the form of sectors.

FIG. 1 shows a device for determining parameters of a shock wave in section; view from above; in fig. 2 - the same plan view.

Piezoelectric plate 1 with electrodes 2 bonded to an acoustic waveguide 3 mounted in case 4. Case 4 is equipped with a membrane 5 connected to the piezoelectric plate 1 using a heat shield element made in the form of piezoelectric plates symmetrically with respect to the axis of the body of piezoelectric plates in the form of sectors . The end surface of the device is installed flush with the surface along which the shock front 1O propagates.

In the case of a device with a heat shield element in the form of two pairs of oppositely polarized electrically connected piezoelectric plates, each pair of piezoelectric plates, for example, 6 and 7, is connected to an instrument recording the voltage across them (shown in the drawings). The device works as follows. When a shock wave 1O propagates from the side of the plate 6 (0 °), a positive voltage is generated at the electrodes of the plates 6 and 7, and the voltage at the electrodes of the plates 8 and 9 is zero. When a shock wave propagates from the side of the 6 8 (45) plates, the electrodes of a pair of plates 6 and 7.8 and 9 generate the same positive voltage. When a wave propagates in the intermediate direction, the amplitudes of the signals of piezoelectric plates 6, 7 and 8, 9 are different, and the signal amplitude is larger for the pair of plates that the shock wave previously loads. The dependence of the amplitude ratio of the signals from the piezoelectric plates 6, 7 and 8, 9 on the angle of approach of the shock wave front is established by preliminary calibration. Similarly, for the remaining cases, the approach angle of wave front 10 to the device is determined by the polarity of the voltages on each pair of piezoelectric plates 6, 7, and 8.9 and the ratio of the amplitudes of these voltages. On the electrodes 2 of the piezoelectric plate 1, in any case, a voltage appears that is proportional to the pressure behind the shock wave.

Claims (1)

W Using a device for determining the parameters of a shock wave allows us to shorten the preparation time for the operation of the experimental equipment and simplify the interpretation of the measurement results. Apparatus for determining parameters of a shock wave, comprising an axisymmetric body with a membrane connected to a pressure sensor in the form of a piezoelectric plate attached to an acoustic waveguide, characterized in that, in order to obtain additional information on the direction of the wave front, the plane, perpendicular to the housing axis, the heat shield element is made in the form of piezoelectric plates Monk in the form of sectors. Sources of information taken into account in the examination: 1. Shock tubes. Ed. x A. Rakhmatulina and S. S. Semenov, M., IL, 1962, p. 374. 2.1 .. BulEef, M. Mew Mief Cart ent | 5ro (cticis IT) stiocls CHTid vibfoition sensors, Jnsi urne-ntaiion tectmo6op-v, 1967, V. 14, No. 3, p. 41. five 735 225