SU1185126A1 - Method of determining the mechanical stresses - Google Patents

Abstract

A method for determining mechanical stresses, which consists in rotating the applied magnetoelastic transducer, determines the change in the output signal judged by the magnitude of mechanical stresses, in order to make it possible to determine the tangential component of the biaxial stress state. the rotation according to the harmonic dependence of the change in the angle of rotation of the converter determines the amplitude and phase of the output signal and calculates the magnitude of the tangential stress by the formula , ijm t are tangential stresses where (Л D the amplitude of the harmonic dependence- / initial phase of the harmonic dependence, is constant

Description

The invention relates to the measurement of mechanical stresses in structures made of ferromagnetic materials and can be used to measure the stresses arising from applied loads or generated during manufacturing, such as welding stresses. The purpose of the invention is to enable the determination of the tangential component of a biaxial stress state. The method is carried out as follows. Prior to measurements, a four-pole magnetoelastic transformer-type transducer is installed on the sample in the form of a plate made of a controlled metal, orient the transducer to the sample: the sample is loaded stepwise in the longitudinal direction, and the instrument readings are fixed. As a result, a calibration dependence of the instrument readings on the magnitude of stresses under uniaxial stretching is obtained. After calibration, a four-pole magnetoelastic transducer is installed on the product under test and oriented along the initial anisotropy direction (for sheet structures, the initial anisotropy direction is the rolling direction). This is the reference position of the transducer. Then the transducer is rotated clockwise and after 15 changes of the angle of rotation, the readings of the instrument are determined. The instrument readings are converted to units of mechanical stresses according to the calibration dependence of the instrument readings on the magnitude of the stresses under uniaxial tension. Then, the harmonic dependence of the output signal variation in the mechanical stress yenics is determined with a change in the angle of rotation of the converter in degrees. The harmonic curve determines the amplitude G of the output signal as the maximum value of the instrument readings when turning the converter 360 and the initial phase of the output signal as the angle of rotation of the converter at which the value of the instrument readings is 0. Then, the tangential stresses are calculated by the formula. DRI ijTT where and are the tangential stresses -, D is the amplitude of the harmonic curve - the initial phase of the harmonic curve is, jU is the constant Lme.

Claims (1)

METHOD FOR DETERMINING MECHANICAL STRESSES, which consists in the fact that by rotating the consignment note the magnetoelastic transducer determines the change in the output signal, according to which the magnitude of the mechanical stresses is judged, characterized in that, in order to enable the tangent component of the biaxial stress state to be determined during rotation according to the harmonic dependence of the change the angle of rotation of the Converter determine the amplitude and phase of the output signal and calculate the value of the shear stress according to the formula from. ~ ζψίΤϊρξ where b are shear stresses; G is the amplitude of the harmonic dependence ·, 'ζ is the initial phase of the harmonic dependence, R. - Lame constant. I ns Q0