SU1583763A1 - Method of determining mechanical stresses - Google Patents

Abstract

The invention relates to the non-destructive measurement of biaxial mechanical stresses by the magnetoelastic method and allows for improved measurement accuracy. Before measuring, a rectangular plate is cut out of the material of the test article. Along its free contours, tensile stresses are created, equal to 0.8 limit of proportionality. In the direction perpendicular to the free contours of the plate, these stresses are measured by a magnetoelastic sensor and, according to the data obtained, a plot of stresses is plotted. The plot defines the width of the zones within which the measured voltages differ from the specified ones. Measurements on the surface of the product being investigated are made starting from points located at a distance from the free contour equal to the width of the above zone. 1 il.

Description

The invention relates to the field of non-destructive measurement of biaxial mechanical stresses by the magnetoelastic method and can be used in mechanical engineering.

The purpose of the invention is to improve the measurement accuracy by eliminating the error of the magnetoelastic sensor due to the influence of the free contour of the product under study.

The drawing shows a plot of mechanical stresses measured in the direction perpendicular to the free contour of a plate 400x50x5 mm in size.

The method is carried out in the following sequence.

The sample plate is mechanically cut out of the metal to be used to manufacture the product under test. In the middle of the length of the plate, a line is laid perpendicular to the free contour. On the line mark the control points. The sample is installed in a tensile testing machine, with a stepwise loading of the tensile voltage in it up to 0.8 proportionality limit. This creates a uniform tension across the entire width of the plate. At test points, the tensile stress values are measured by a magnetoelastic sensor. According to the measurement data, a stress plot is drawn (drawing) along the line from one free contour of the plate to the other. The epuret reveals

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Zones in which the measured voltage is not equal to the specified tensile voltage, the error is caused by the influence of the free contour of the plate on the readings of the magnetoelastic sensor. The width of these zones is measured. Measurements are then made directly on the monitored product. Moreover, the first test points of measurement select their distance from the free circuit 15 equal to the width of the zone detected on the sample, where the measured values of the voltages were not equal to the specified one.

Further measurements and calculations of the direction of action of the principal stresses and the values of the components of the stress tensor are carried out according to a known technique.

Claims (1)

The invention of the method of determining the mechanical stresses, consisting in the measurement of a magnetoelastic sensor at specified points on the surface of the product under study. algebraic difference of principal stresses, determining their directions and calculating the values of the components of the stress tensor using the boundary conditions on a free contour, characterized in that, in order to improve the measurement accuracy by eliminating the error of the magnetoelastic sensor caused by the influence of the free contour, A rectangular plate is cut out of the material of the product under study, tensile stresses equal to 0.8 limit of proportionality are created along free contours in the direction perpendicular to free contours, these stresses are measured, a plot is plotted and the width of zones is determined. the limits of which are the measured voltages c from the specified ones, and are measured on the surface of the investigated product by the production, the cutoff from points located at a distance equal to the distance of the free KONT of the zone. J 5 fO / 5 20 25 30 35 W K 50 Plate width, mm