SU1396047A1 - Method of vibroacoustic testing of structures - Google Patents

Abstract

The invention relates to non-destructive testing and can be used to control using vibrations and quantify damage to uniaxial structures, such as pipelines, stiffeners of thin-walled shells, as well as assessing the stiffness of joints of welded joints. The aim of the invention is to increase the information content of the control due to the quantitative determination of the degree of destruction of the uniaxial structures. According to the vibroacoustic control of the structures, the local zones of the structure are consistently violated by the attached mass, the value of which is chosen according to the proposed formula E. The attached mass is set in the center of the local zone, and the ends of the local zone are rigidly fixed. In disturbed zones, a harmonic force with a constant amplitude and frequency, which is calculated using the proposed formula, excites elastic oscillations, measures the amplitude of the added mass, and the destruction of the structure is determined by the proposed formula by a relative increase in the amplitude of oscillations of the added mass in the defect zone and a linear size. local zone. 2 Il. (L with

Description

The invention relates to non-destructive testing and can be used to control with the help of elastic vibrations and quantify damage to uniaxial structures, such as pipelines, stiffeners of thin-walled shells, as well as assessing the stiffness of joints of welded joints.

The aim of the invention is to increase the information content of the control by quantifying the degree of destruction of uniaxial structures,

FIG. 1 shows a device for the implementation of the method of vibro-acoustic control of structures; FIG. 2 - dependence of the amplitude of oscillations of the added mass on the coordinate of its location in the presence of a defect.

A clamp 2 and an attached weight 3 are attached to the uniaxial structure 1. A displacement sensor A is attached to the attached mass 3, the signal from which is fed to the measuring amplifier 5. Elastic vibrations are excited by the vibrator 6 and generator 7 in the design 1.

The method of vibroacoustic control of structures is carried out as follows.

In the uniaxial structure, a local region of length 1 is selected. Its length is chosen from the condition that the vibrator 6 has enough power to excite oscillations of the added mass 3 with an amplitude value sufficient for measuring accuracy. The value of m of the added mass 3 is chosen equal to

,,. where 1 is the linear size of the local

zones; f- density of material construction

tion;

F is the cross-sectional area of the structure.

Using the bracket 2 at the ends of the local section, create rigid conditions for the attachment with the possibility of moving the local section relative to the uniaxial structure 1. Place the attached mass 3 in the center of the local section. The sequence moves the bracket 2, thereby the local area of length 1 and the added mass 3 with respect to the uniaxial structure 1. At each location of the local area, its ends are rigidly fixed. Using a vibrator 6, the input of which is connected to the output of the generator 7, the oscillating attached mass 3 is excited by a harmonic force with a constant amplitude and an operating frequency. At the same time, the operating frequency f is chosen from the condition

where E is the Young's modulus of the material of the structure; I - the moment of inertia of the transverse

section.

The amplitude of oscillations of the added mass 3 is measured with the help of a displacement sensor 4 connected to the measuring amplifier 5. A curve is created for the dependence of the amplitude of the forced oscillations of the added mass 3 on the x coordinate. By increasing the amplitude of oscillations of the added mass 3, the presence of a defect and its location of structure 1 are judged. The degree D of structural failure is determined by the relative increase in the amplitude of oscillations of the attached mass 3 in

And y

defect area

and the length of 1 local area with L1

Y

,

1 +

Ay

Claims (1)

Invention Formula The method of vibroacoustic control of structures, which consists in successively loading local zones of the structure with an attached mass, in loaded zones with a harmonic force of constant amplitude and frequency excites elastic oscillations, measures the amplitude of the attached mass and determines the defectiveness of the product and the location of the defect by the measured amplitude This is the fact that, in order to increase the information content of the control by quantifying the degree of destruction of uniaxial structures, the ends the local zone is damped, the added mass is placed in the center of the local zone, the value m of the added mass is chosen equal to , 5fFl, where 1 is the linear size of the local 3; Editor M. Bandura dzie.g Compiled by G. Fedorov Tehred M. Didyk. Order 2489/45 Circulation 847 VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/3 fs / ff.f Corr ector G. Reshetnik Subscription