SU838550A1 - Device for wear resistance testing in ultrasound field - Google Patents

Description

one

The invention relates to mechanical engineering and can be used to determine the mechanical characteristics of materials during ultrasonic fatigue.

A device is known comprising a magnetostrictive transducer and a waveguide concentrator, on the end of which there is a jack for fastening samples l.

However, this device does not allow to excite oscillations of various types in the tested samples, it does not ensure a sufficiently high stress level of tension-compression in the sample.

The closest in technical essence and the achieved result to the proposed invention is a device containing a magneto-constrictive transducer and a detachable waveguide hub connected to it with a socket for fastening — samples C2.

The disadvantages of this device are narrow scope and low reproducibility of test results.

The aim of the invention is to expand the scope and enhance

reproducible test results.

The goal is achieved - the removable part of the waveguide concentrator is made in the form of a glass, the cavity of which is provided with sockets for fastening the samples.

The drawing shows the proposed device.

0

The device comprises a transducer 1, to which a detachable concentrator waveguide 2 is connected, the transducer and the waveguide are provided with sockets 3 for fastening sample 4.

five

The ratio of the input and output sections of the waveguide can be selected from the equality –y K so that the amplitudes are equal in magnitude and to the value on the specified sections

0 or so that the amplitudes on these sections are different.

The device works as follows.

The sample is attached to the sockets of the former and the waveguide. In a speaker system, a magnetostrictive transducer — a waveguide — sample, ultrasonic vibrations are excited. When placing the mountings

0 coaxially sample is tested only.

longitudinal oscillations, if one of the sockets is displaced relative to the axis by an angle ci, then longitudinal-transverse oscillations occur in the sample, and the magnitude of the transverse component depends on the angle,

The use of the proposed provides, in comparison with the known devices, the ability to subject samples to simultaneous effects of various types of vibrations, which brings the tests closer to the actual working conditions of parts and structures, reducing the laboriousness of the tests both due to a faster sample change and simultaneous testing of several samples, simplifying the design devices, increasing stability, which ultimately broadens the field of application and improves the reproducibility of the results talent test.

Claims (2)

1. Kuzmenko V.A. Sonic and 5 ultrasonic vibrations during dynamic testing of materials. K. AtrvcCP, 1E63, p. 134-137. 2. Kuzmenko V.L. and others. Methods of fatigue tests under asymmetric cycles of high-frequency loading under conditions of relaxation of static tests. - Fatigue strength of materials and structural elements at sound and ultrasonic loading frequencies. K., Naukova Dumka, 1977, p. 216-220 (prototype)