SU1578548A1 - Method of resonance tests of object in two-coordinate vibration-testing machine - Google Patents

Abstract

The invention relates to the resonance testing of objects for vibration reliability on a two-coordinate vibrostand. The purpose of the invention is to increase the reliability of the test results. When an object is tested preliminarily at the resonant frequencies of the object, phase shifts between the vibration components are determined at which the maximum amplitudes of the resonant oscillations at the control point of the object are reached, and these phase shifts and the specified values of the vibration amplitudes are maintained. Conducting resonant tests, taking into account phase shifts, corresponding to the maximum values of the amplitudes of oscillations, allows reproducing the most severe operating conditions and, thereby, increasing the reliability of the vibration tests.

Description

The invention relates to vibration tests, in particular to methods for resonant testing of objects for vibration reliability on a two-coordinate vibration table.

The purpose of the invention is to increase credibility.

When an object is tested for vibration reliability, the frequencies of its resonant oscillations are preliminarily determined: linear in the direction of the coordinates corresponding to the components of vibrational excitation and angular relative to the axis perpendicular to the plane of these coordinates. Then, two-component oscillations of the object are excited at its resonant frequencies, and at each resonant frequency the phase shifts between the coordinate components of the vibration vary. At the same time, at the reference point of the test object, the vibration amplitudes are measured by the vibration components, as well as the amplitude of the angular vibration around an axis perpendicular to the plane of the vibration components, fixing the phase shifts between the vibration components at which the largest amplitudes are reached. The fixed values of the phase shifts are taken as resonant. ,

The object's vibration reliability tests are carried out at resonant frequencies for a given level of vibration amplitudes and corresponding to each frequency values of the resonant phase shift between the vibration components. At the same time, the amplitude of oscillations and resonant shifts Laz Control SP

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pyioTj measures their value at the control point of the shaker.

Conducting resonant tests with regard to phase shifts between vibration components} at which the maximum values of vibration amplitudes are reached, allow reproducing the most severe operating mode and thereby increase the reliability of the vibration reliability tests.

The method is carried out as follows.

At the lower value of the operating frequency range at a given reference point of the platform of a two-coordinate s / jack, two-coordinate vibration of a given amplitude is reproduced. At 3TO1-I, the phase shift between coordinate components is maintained at zero. Synchronously changing the frequency of the vibration processes in both coordinates, the object resonant frequencies are determined. Then, at the resonant frequencies of the object, the phase shift between the coordinate - and vibration components is measured, to achieve the fulfillment of the conditions $ at which the amplitudes of the object oscillations, according to the analyzed coordinates, take the greatest

The values, i.e. determine the resonant phase shifts. After that, at the reference point of the platform of the vibrostand, the vibratory process is reproduced at the resonant frequencies of the object with the set values of the phase shifts between the vibrating components.

Claims (1)

Invention Formula The method of resonant testing of an object on a two-coordinate vibrostand, which excites two-component vibration of the object under test at its resonant frequencies, while maintaining specified vibration amplitude values at the control point of the platform of the vibrostand, distinguished by the fact that, in order to increase reliability, it is preliminary to resonance The frequencies of the test object determine the phase shifts between the vibration components at which the maximum values of the amplitudes of resonant vibrations are reached in the control. point of the object, and when tested, support these phase shifts.