SU1095063A1 - Method of measuring actual area of solid body contact - Google Patents

Abstract

1. METHOD OF MEASURING THE ACTUAL CONTAINING AREA OF SOLID BODIES, 13 "consisting in that a film is placed between the bodies, the bodies are compressed, and the actual contact area is determined by the film characteristics, in order to reduce the labor intensity, the surface of the film outside the zone of contact - bodies, and the actual area of contact is determined by the parameters of acoustic emission signals. 2. A method according to claim 1, characterized in that aluminum foil is used as the film. (L 1 coined about 0 co

Description

1 The invention relates to instrumentation engineering and can be used to control contacting separable pairs, such as relay contacts. A known method of measuring the actual contact area of solids, based on determining the characteristic of the contacting bodies of acoustic impedance flj. The disadvantage of the method lies in the small measurement accuracy due to the fact that the acoustic impedance depends not only on the actual contact area of the bodies, but also on the intermediate medium between the bodies such as air or grease. The accuracy of measurements can be improved by evacuation, which, however, increases the measurement time and increases the labor intensity of the method. The field of application of this method is limited, since for measuring impedance it requires free access to at least one of the external surfaces of the bodies for the installation of the sensor. The closest in technical essence and the achieved result to the invention is the method of measuring the actual area of contact of solids, which consists in placing a film between the bodies, compressing the bodies, and determining the actual contact area G2 from the characteristics of the film. The disadvantage of this method is the large laboriousness of the measurements, since the actual area of contact is determined after removing the load and the connector of the bodies from the area of the print. The aim of the invention is to reduce the labor intensity. The goal is achieved by the method of measuring the actual area of contact of solids, which consists in placing a film between bodies, compressing bodies and determining the actual area of contact by the characteristics of the film, placing acoustic emission transducers on the film surface outside the zone of contact of the bodies, and the actual area of contact is determined by the parameters of the acoustic emission signals. In this case, aluminum foil is used as a film placed between the bodies. 632 The drawing shows a scheme for implementing a method for measuring the actual contact area of solids. A film 3 is clamped between bodies 1 and 2, on the surface of which an acoustic receiver 4 is installed outside the contact zone. Signals from the receiver are processed and recorded in block 5. The method is carried out as follows . A film is placed between the bodies 1 and 2, a constant loading mode is set so that the acoustic emission signals occurring in the film material are perceived by Premix 4 separately (the pulse emission mode). The signal processing unit 5 determines the parameters of the acoustic emission signals, for example, the total acoustic emission. The actual area of contact is determined by acoustic emission parameters. A pre-derived calibration curve or analytical relationship is used that relates the measurement results to the actual touch area. Example. An aluminum foil strip is inserted between the contacts of the relay, at the second free end of which an acoustic emission receiver is attached with a natural frequency of the piezo-converter 100 kHz. Acoustic emission signals are recorded by a counter. When the relay is triggered, the foil experiences a compressive load. The total acoustic emission is recorded, then a calibration curve is constructed linking the value of the total acoustic emission and the actual touch area determined by the imprint on the foil. Further, by the total acoustic emission, obtained by testing contacts with an unknown actual area of contact, the target value is determined according to the calibration curve. With repeated measurements using the same film area (foil), the accuracy of measurements by this method may be reduced due to the well-known Kaiser effect, which is a sharp decrease in the intensity of acoustic emission for many materials when reloading with the same load. The effect of this effect is eliminated by displacing the film along the contact surface by an amount exceeding the longitudinal dimensions of the contact zone.

During compression of the bodies and the film placed between them, acoustic emission signals can also be formed in the material of the bodies under study, which leads to a distortion of the measurement results by this method. However, the intensity of these signals can be minimized by an appropriate choice of film material.

for example, for samples of steel, a chrome aluminum foil (aluminum foil) is used.

The advantages of the invention are to increase the monitoring performance and reduce the complexity of monitoring the actual contact area of the contacting solids, for example, the relay contacts, by reducing the measurement time.

The proposed method for measuring the actual contact area of solids is easy to automate and use on production lines.

Claims (2)

1. METHOD FOR MEASURING FACT TARGET AREA FOR SOLID BODIES TO CONTACT, consisting in the fact that a film is placed between the bodies, the bodies are compressed, and the actual contact area is determined by the characteristics of the film, characterized in that, in order to reduce the complexity, acoustic emission signal transducers are placed on the surface of the film outside the contact area of the bodies , and the actual contact area is determined by the parameters of the acoustic emission signals. 2. The method of pop. 1, characterized in that as the film using aluminum foil. d e SU „„ 1095063 1 1095063 2