SU1681188A1 - Method for determining limit of elasticity at bending - Google Patents

Abstract

The invention relates to a testing technique and can be used to determine the flexural elastic limit. The purpose of the invention is to increase productivity. The flat sample is loaded according to the four-point bending pattern with forces that are applied on the working section of the sample in mutually opposite directions. The sample is then unloaded, after which the residual deflection and the length of the working section of the sample, in which the residual deflection is equal to the allowable deflection, is determined. The elastic limit is determined by the magnitude of the force, taking into account the length of the specified portion of the sample. This eliminates the need to test a series of specimens to determine bending forces, in which the residual deflection is equal to the allowable, and the magnitude of these efforts is determined on one specimen under single loading, which provides an increase in productivity. 3 il.

Description

The invention relates to a testing technique, in particular to methods for determining the flexural elasticity limit.

The purpose of the invention is to increase productivity.

FIG. 1 shows a scheme for implementing the method; in fig. 2 is a plot of bending moments; in fig. 3 is a plot of residual deformations.

The method is carried out as follows.

A flat sample in the form of a beam with a length L of a constant cross section is hinged in b-pores. Within the working section of length I, beam 1 is loaded with bending forces P according to the four-point bending scheme, with the efforts directed in mutually opposite directions, and fixed

these efforts. In this case, the reactions Pi PE / L occur in the hinges, and the bending moments M are determined from the ratio

About 00

M

e

After that, the sample is unloaded and the residual strain east is determined. The distribution of bending moments over sections along the working section on the beam under the specified loading conditions is linearly variable, and there is a section on the working section where the moment is zero. Thus, if during loading the magnitude of the bending moment M exceeds the value of the value of Mkrit Oy / M, where Oy is the true value of the limit

00 00

elasticity with an allowable residual strain r0. then within the working area of the beam 1 there are two sections in which the residual strain corresponds to the allowable strain 0. In this case, the distance D between these sections is determined, and the value of the elastic limit is determined by the formula

„Mkrit

MD tW

where W is the moment of resistance to bending in the cross section of the working section of the sample.

Thus, the method eliminates the need for repeated testing of a series of samples to determine the magnitude of the bending forces, in which the residual deformation of the working section of the sample is equal to the allowable deformation, which

provides improved performance.

Claims (1)

Formula and method of determining the limit of elasticity when bending, in which the flat sample is loaded with bending forces according to the four-point bending scheme, the force is determined, the sample is unloaded, the residual deformation is determined, which is compared to the permissible residual deformation, characterized in that, in order to increase productivity, efforts are applied in mutually opposite directions, after unloading the sample, determine the length of the sample section, at the ends of which the residual strain is equal to the allowable and take into account the length of this area when determining the elastic limit. / 77 // R, / V7777 FIG. one ost 5