SU920353A1 - Apparatus for determining inner stresses in coated specimens - Google Patents

Description

(54) FACILITY FOR DETERMINATION OF INTERNAL STRESSES IN COATED SAMPLES

one

The invention relates to a measuring technique, namely, devices for determining internal stresses in solids by their deformation.

A device for determining internal stresses in samples with coatings is known, comprising a housing and a holder mounted therein for securing the sample along the longitudinal axis of the device, a loading mechanism made in the form of two stops, the axes of which coincide with the longitudinal axis of the device, and a strain gauge, connected to one of the stops 1.

A disadvantage of the known device is the low accuracy of the determination of internal stresses associated with the inability to study the coating on the substrate used in real conditions, with the impossibility of determining the internal stresses with other than tensile loading.

The closest to the invention to the technical essence and the achieved result is a device for determining internal stresses in samples with coatings, comprising a case and a holder mounted therein for cantilever fastening the sample along the longitudinal axis of the device, a loading mechanism made in the form of two movable stops, placed in a plane passing through the longitudinal axis of the device, and perpendicular to this axis, two strain gauges connected to the lugs, and measuring instruments 2.

The disadvantage of this device is

10 comparatively low measurement accuracy associated with the uncontrolled rate of sample leveling after its bending under the action of internal stresses in the coating, with the relaxation of stresses during the bending of the sample.

15 with the coating, and also the fact that the measurement of the bending force of the sample is carried out only at one point, whereas for a more reliable determination of stresses it is also necessary to measure at the second point of contact with the stops.

20

The aim of the invention is to increase the measurement accuracy.

Claims (2)

This goal is achieved by the fact that the device for determining internal stresses in samples with coatings is equipped with two solenoids, the cores of which are connected to the stops and the catupsi to the housing, and two amplifiers with resistances, each sensor is connected to the corresponding solenoid through the amplifier and the resistance connected in series with it, in parallel to which the measuring device is connected. The drawing shows a device for determining internal stresses in samples with coatings, a general view. . The device for determining internal stresses in samples with coatings comprises a housing 1 and a holder 2 mounted therein for cantilever securing sample 3 with coating 4 along the longitudinal axis of the device, a loading mechanism made in the form of two movable stops 5 and 6 arranged in a plane, passing through the longitudinal axis of the device, and perpendicular to this axis, two deformation 7 and 8, for example inductive, connected to stops 5 and 6, two solenoids 9 to 10, cores II and 12 of which are connected respectively to the rest 5 and 6, and the coils with case 1, two amplifiers 13 and 14 with resistances 15 and 16, in parallel with which measuring devices 17 and 18 are connected. Sensor 7 is connected to the coil of solenoid 9 through amplifier 13 and in series with it 15, and the sensor 8 with the coil of the solenoid 10 through the amplifier 14 and the resistance 16 connected in series with it. Sample 3 is placed in a thermostatic jacket 19 with nozzles 20 and 21 for inputting the heat output agent. A device for determining internal stresses in samples with coatings operates as follows. , Sample 3 with coating 4 is installed in a holder 2 placed in housing 1. Sub-sliding lugs 5 and 6 are brought into contact with sample 3, and the moment of contact is determined by the zero shift on the scales of measuring instruments. After holding the sample 3 with coating 4 at a predetermined mode (isothermal exposure for polymerization, drying, cooling, etc.) using a heat agent that shrinks in jacket 19, the internal stresses will tend to bend the sample 3, and to hold it In the initial position, some constant moment of coverage of 4 of the most magical moment will be required. This moment was created by a pair of forces, one of which is the action of the stop 5, the other - the reaction of the stop 6. When the forces acting on step 5 and 6 arise, the signals from the sensors appear. 7 and 8, respectively, are fed to amplifiers 13 and 14, and after amplifying the coils of solenoids 9 and 10, which, acting on the cores P and 12, create counterbalancing forces on the stops 5 and 6. These forces are recorded by the devices 17 and 18, according to which, in combination with the distance ..i between stops 5 and 6, determine the restoring bending moment by which the stresses in the floor 4 are calculated from the known dependencies. The invention improves the accuracy of measurements by automatically balancing the bending moment annogo presence internal stresses in the coating. Apparatus of the Invention A device for determining internal stresses in samples with coatings, comprising a housing and a holder mounted therein for cantilever clamping a sample along the longitudinal axis of the device, a loading mechanism made in the form of two movable stops placed in a plane passing through the longitudinal axis devices, and perpendicular to this axis, two strain gauges connected to the lugs, and measuring instruments, characterized in that, in order to improve the measurement accuracy, it is equipped with two solenoids and cores which are associated with the stops, and the coils - with a housing and two amplifiers with resistances, each sensor being connected to the respective solenoid coil through the amplifier and included in series with the resistance which is connected parallel to the measuring instrument. Sources of information taken into account in the examination 1.Sanzharovsky A. T. Methods for determining the mechanical and adhesive properties of polymeric coatings. M., Science, J974, p. 7, Fig. 1. 2. Author's certificate of the USSR N 540192, cl. G 01 B 5/30, 1976 (prototype).