CS247519B1 - Axial extensometer - Google Patents

Abstract

The device relates to an axial extensometer, which is used for measuring axial deformations of material samples. The purpose of the invention is to enable measurements with different measuring bases while maintaining the same static and dynamic characteristics of the extensometer. On each transmission arm of the extensometer, one outer and one inner surface are formed for mounting measuring contacts. Different measuring bases are achieved by mounting measuring edges on individual mounting surfaces.

Description

The invention relates to an axial extensometer which is used to measure axial deformations of material samples.

Material fatigue tests are generally carried out using feedback-controlled systems in which the deformation is either measured only or the test run is controlled according to its size.

Deformation is measured by extensometers at a certain distance, called the measuring base. The measuring base is in a certain prescribed relation to the cross-section of the sample in order to compare the results of tests on different sample sizes. The transferability of the results is determined, inter alia, by the agreement of the metrological static and dynamic characteristics of the extensometers, which are used to measure the deformations or to control the test.

The measurements are therefore preferably carried out by means of a single extensometer, in which the various measuring bases are formed by means of so-called extenders, which are additional extensions for the transmission arms of the extensometers.

As a rule, the extenders are connected to machined surfaces arranged on the outer edge of the arms, between the extensometer arm and the measuring contacts. The measuring base is thereby increased by the size of the extenders.

The additional extenders in this arrangement do not substantially affect the static metrological characteristics, but due to their weight and altered geometry they affect the dynamic properties of the extensometers.

Extensometers with extenders can therefore only be used at lower operating frequencies, typically up to 20 Hž. With extenders, the stability of the system also deteriorates due to the poor dynamic characteristics of the sensor when the extensometer is used in a closed feedback loop, ie test control. .

According to the invention, these drawbacks are overcome by providing an outer surface and an inner surface for fixing the measuring contacts on each extensometer arm.

It is advantageous to design these surfaces so that they are parallel to each other.

An advantage of the solution according to the invention is that measuring bases of different sizes can be realized by different mounting of the measuring contacts without additional mechanical members, which would influence the dynamic properties of the extensometer by their weight.

This makes it possible to perform comparable tests in the frequency band, which is practically unattainable when extensometers are used with extenders, due to the limited dynamic properties of such arrangements. Typically, the arrangement according to the invention can be operated in the frequency band up to about 400 Hz.

The embodiment according to the invention is explained with reference to the accompanying drawings, in which Fig. 1 represents one way of fitting the extensometer with measuring contact with the blades, Figs. 2 and 3 show another way of this fitting.

The extensometer is formed by a measuring member 6 and a pair of arms 8, which are tapered at their ends, thereby forming on each arm one outer surface 11 and one inner surface 12 for fastening the measuring contacts 13.

In the alternative of FIG. 1, the measuring contacts 13 are mounted on the inner surfaces 11 of the arms 1, thereby forming a measuring base designated L1.

FIG. 2 shows the alternative, where the measuring contacts 13 are mounted on the outer surfaces of arms '12 ^- _1, thereby forming a measuring base L 2,

FIG. 3 shows an arrangement in which the measuring contacts 13 are fixed to one inner surface 11 and to one outer surface 13 of the arms 1, thereby forming a measuring base L 3.

Typically, an extensometer with bases of 10.15 and 20 mm or 20.30 and 40 mm can be realized in this way. Obviously, the surfaces for attaching the measuring contacts to the blades can be formed differently than in the described embodiment, for example by prismatic recesses on the inner and outer sides of the extensometer arms.

It will also be appreciated that in the embodiment described, other sizes of measurement bases can be achieved, for example, by using asymmetric measuring contacts. Then, when mounting the contacts from different sides to individual external or internal surfaces and a combination of these mounting methods, an appropriate number of defined measuring bases can be achieved.

Claims (2)

SUBJECT OF THE INVENTION An axial extensometer with a measuring element and transmission arms on which measuring contact points with blades are fixed, characterized in that one outside surface (11) and one inside surface (12) are provided on each arm (1) for fastening the measuring contacts /13/. Axial extensometer according to claim 1, characterized in that the outer surface (11) and the inner surface (12) are parallel to each other.