SU168555A1 - - Google Patents

Description

Methods are known for measuring the speed of ultrasound in solids with optical indication of the diffraction of light rays, in which a sample of the material under study is immersed in a liquid at a known speed of sound and the speed is determined by the deviation of the concentrated beam of sound waves passing through the sample or its entrance angle. ultrasound.

The peculiarity of the described method is that the relative movement of two triangular prisms made of the material under study changes the path traveled by ultrasound, and the speed of the longitudinal, in the sample under study, is measured by the magnitude of the change in the input impedance of the emitter. transverse and surface waves.

The drawing is a schematic diagram of the Device, explaining the method.

The device contains a piezoelectric transducer 1, a generator of 2 electrical oscillations, an amplifier 3 and an indicator 4.

sensor. Longitudinal waves passing through a layer of oil fall obliquely into a prism 6 and transform into longitudinal and transverse waves (in the drawing, longitudinal waves are shown by a solid line, transverse waves are dotted). The longitudinal waves are reflected perpendicularly from the opposite face of the prism 6 and return to the piezoelectric transducer, and the transverse waves are not reflected perpendicularly and do not fall into the piezoelectric transducer. When moving the prism 6 relative to the prism 5, the path traveled by the waves changes, and the maxima and minima of the input impedance of the piezo transducer are periodically obtained.

In order to obtain transverse waves, a prism 7, made of a material in which the velocity of the transverse waves is known, is used and has an angle such that when the waves are reflected from the air surface, the transverse waves formed perpendicularly out of it. This prism is glued to prism 5 and has two jagged edges to absorb wave interference.

When measuring the velocity of transverse waves, the piezoelectric transducer presses against prism 7. Transverse waves that fall from prism 7 into prism 5, and from it into prism 6, are reflected perpendicularly from its opposite face and in the same way return

into a piezo transducer. When the prism 6 is moved relative to the prism 5, the path traveled by shear waves changes, and the maxima and minima of the input impedance of the piezo transducer are periodically obtained.

The speed of surface waves is measured using a prism 8 made of a material in which the speed of the longitudinal waves is less than the speed of the transverse waves in the sample under study and with an angle such that the transverse and longitudinal waves are fully reflected in this prism and only surface waves are formed.

When measuring the speed of surface waves, the piezoelectric transducer / presses against the prism 8, which in turn presses against the prism 6. When the prism 8 slides along

surface under study form standing surface waves and periodically maxima and minima of the input impedance of the piezoelectric transducer, which are recorded by the indicator 4.

Subject invention

A method of measuring ultrasound velocity in solids using a prism interferometer, characterized in that, in order to simultaneously measure the velocity of the longitudinal, transverse and surface waves in the sample, the relative movement of two triangular prisms made of the material under study changes the path traveled by ultrasound and The rate of ultrasound is determined by the magnitude of the change in the input impedance of the radiator.