SU1065730A1 - Wear investigation plant - Google Patents

Abstract

INSTALLATION FOR WEAR RESEARCH, containing sample and counterpiece holders, the latter of which form a friction unit, a loading mechanism that interacts with one of the holders, a drive, a device for collecting wear products, an ionizing radiation detector, a collimator, radiometric equipment, in order to increase the resolution of determining the rate and intensity of wear, the device for collecting wear products is made in the form of a carrier tape and acting with its working surface with the sample surface worn out, the mechanism of drawing the carrier tape and the device for applying a protective coating on the working surface of the carrier tape located between the detector and the friction unit. 2. Installation according to p. 1 / difference a-} (LY with the fact that, in order to expand technological capabilities, the collimator is installed with the ability to move across the carrier tape. F SP OO

Description

The invention relates to a technique for the investigation of tribotechnical properties of materials and relates to an apparatus for the study of wear using the method of determining wear by the intensity of radiation of radioactive wear products. A known apparatus for examining wear and tear, containing sample and counterpiece holders, ps5 the last of which form a friction unit, a loading mechanism, an actuator interacting with one of the holders, a device for collecting wear products, an ionizing radiation detector, a collimator, a radiometric instrument. In this installation, a device for collecting radioactive wear products (FIRs) is an oil collection vessel (flask, test tube, Petri dish, etc.), which is replaced after a specified period of time. In the oil collection tank, FIR contains those that were formed during the sampling period and thus characterize some average speed or wear rate during the period of their accumulation in tank 1. This setup has a low resolution in terms of the rate and intensity of wear-sewing and is unsuitable for the study of dynamic wear processes occurring over a period of several seconds or even fractions of a second. The purpose of the invention is to increase the resolution of determining the rate and intensity of wear. The goal is achieved by the use of a wear testing device, containing sample holders and a counter piece, after which they form a friction unit, a loading mechanism that interacts with one of the holders, a drive, a device for collecting wear products, an ionizing radiation detector, a collimator, radiometric equipment, a device for collecting wear products made in the form of a carrier tape, designed to interact with the working surface of the sample The length of the carrier tape and the protective coating on the working surface of the carrier tape, located between the detector and the friction unit. In addition, in order to broaden the technological possibilities, the collider is mounted with the possibility of movement across the carrier tape. The drawing shows a schematic diagram of the installation for the study of wear. The installation contains holders 1 and 2, respectively, of sample 3 and counter piece 4. Holder 1 is connected to the drive, and holder 2 interacts with the loading mechanism (not shown. Lubrication to the zone of friction of sample 3 and counter sample 4 comes from the lubricator 5. On reel 6 there is a ribbon The carrier 7, the working surface of which is pressed in the process of testing to the surface of the friction of the sample 3. The carrier tape 7 is moved by the drawing mechanism 8, after which it is transferred to the receiving mechanism 9. To be held on the carrier e 7 of a lubricant comprising an FIR uses a protective coating 10 made of an oil-resistant material that is placed in the feeder 11. The adhesive is applied to the protective coating 10 from a container 12. The measurement of the FIR ionizing radiation is performed using a collimator 13, which is made slit 14, ionizing radiation detector 15 and radiometric equipment 16. The collimator 13 is connected to the drive 17, which provides its movement across the carrier tape 7. The installation works as follows brazom Before testing, at least one of the elements of friction nodes is subjected to radioactivity. When the elements of the friction unit are worn out (sample 3 and counterpiece 4, the wear products, including the FIR, are removed by the working surface of the tape carrier 7 from the moving element of the friction unit (in this case, it is sample 3J, which is moved relative to the friction unit and presses its working surface to the friction surface of sample 3. The material of the carrier tape 7 is chosen depending on the type of lubricant. It must absorb and retain wear products well. When lubricating the friction unit with motor oil or Hindu Filter paper can be used with real oil. For greases, the carrier tape 7 can be made of thin cloth or technical felt. The speed of the carrier tape 7 is chosen depending on the change in wear rate, and the greater the wear rate, the greater should be the speed of the hole.

The portion of the carrier tape 7 with the FIR adhered to it is a carrier of information on the course of the wear process over time.

Installation assumes possible. ability to measure speed and wear rate directly on it. This procedure is carried out using a collimator 13, an ionizing radiation detector 15 and radiometric equipment 16. It is possible to make these measurements on a special measuring complex. In this case, the carrier belt 7 is placed on the reel of the receiving mechanism 9, and a protective coating 10 is applied to its working surface. This is also done in cases where it is necessary to store wear information for a long time.

If it is necessary to investigate the wear distribution over the surface of sample 3 in the direction perpendicular to its circumferential speed, then the slit 14 of the collimator, 13 is positioned along the carrier tape 7 and the collimator 13 is moved by means of the actuator 17

0 with a slit 14 across the carrier tape 7.

The use of such an installation allows one to investigate the process of wear of the preactivated surfaces of the elements of the third node under the conditions of limited lubrication or when using grease and solid lubricants.

Claims (2)

WEAR RESEARCH INSTALLATION, containing sample and counter-sample holders, the last of which form a friction unit, a loading mechanism interacting with one of the holders, a drive, a device for collecting wear products, an ionizing radiation detector, a collimator, radiometric equipment, characterized in that , in order to increase the resolution of determining the speed and intensity of wear, the device for collecting wear products is made in the form of a carrier tape designed for mutual action of your working surface with the wear surface of the sample, the mechanism of broaching the carrier tape and devices for applying a protective coating on the working surface of the carrier tape located between the detector and the friction unit. 2. Installation pop. 1, distinguished by the fact that, in order to expand technological capabilities, the collimator is mounted with the ability to move across the carrier tape.