SU1383018A1 - Method of adhesive jointing of concentrically-positioned parts - Google Patents

Abstract

The invention relates to the field of engineering and can be applied to create a fixed connection of two concentrically arranged parts. The purpose of the invention is to increase the reliability and quality of adhesive bonding, as well as to ensure the possibility of gluing parts from brittle materials. The method consists in applying to the bonding surface one of the parts of the adhesive composition obtained by mixing the adhesive composition with the heat-conducting metal powder in an amount equalizing the thermal conductivity of the adhesive composition and the material of one of the parts to be joined (D). Next, D is collected with a preliminary change in the amount of shrinkage of the adhesive composition of the bonding surface of one of D by thermal exposure. The initial state is returned to D at a speed equal to the shrinkage rate of the adhesive composition, which is achieved by regulated heating or cooling of the corresponding D. In the adhesive layer there are no shrink holes, the curing time of the adhesive composition is reduced. 2 hp ff, 1 tab. (C (L

Description

00 00 00

The invention relates to the engineering and repair of machinery and can be applied to create a fixed connection of two concentrically arranged parts.

The purpose of the invention is to increase the reliability and quality of adhesive bonding, as well as to ensure the possibility of gluing parts from brittle materials.

The method is carried out as follows.

When assembling with a change in the size of the female part (for example, seating the sleeve on the shaft), the adhesive material is mixed with the required amount of heat conductive powder to a uniform consistency and applied to the surface to be glued to the male part, then the surrounding part is heated to the temperature that expands the surface to be glued to the amount of shrinkage of the adhesive material and with the temperature gap formed due to the heating, the joint is assembled.

To equalize the cooling rate of the female part to ambient temperature with a rate of cure.

five

0

This material is periodically heated by the female part.

The assembly with a change in the size of the male part (for example, the fit of the sleeve into the body hole) is carried out in the same way, only instead of heating cooling, and instead of periodic heating, periodic cooling.

Example. Restoration of the worn part of the car's piston head (along the grooves under the compression rings) is performed by gluing the surface of the cylindrical nozzle to the surface prepared in advance at the place of wear (in both cases, the AL-30 material). The piston operates at a maximum temperature of 220 ° C with alternating loads. The heat-resistant anaerobic composition Unigerm-3 is used as the adhesive material, which ensures the performance of the adhesive compound at 250-300 ° C, and with a shear strength on aluminum of 9-10 MPa, and copper electrolytic powder as the heat-conducting metal filler.

The main indicators of the materials used are listed in the table.

Heat conductivity, W / m.grad

170

The ratio of mass parts

Heating temperature, C

120

Cure time at 120 ° C, h

Shrinkage during cure,%

The adhesive composition is applied evenly onto the surface of the piston head that has been glued. The cylindrical nozzle is heated to a temperature of 120 ° C, which provides an increase in the diameter of the hole by 0.1 mm, equal to the shrinkage of the adhesive composition, and is assembled from a piston, 183 300

170

40

60

0.5

him The adhesive composition is cured at this temperature for 0.5 hours, the cylindrical nozzle is cooled during this time with periodic heating of the piston head, gradually bringing the temperature of the piston to ambient temperature.

The adhesive bond obtained by the proposed method ensures the absence of shrink holes in the adhesive layer, thereby preventing the formation of fatigue cracks and the destruction of the adhesive bond.

The presence in the adhesive composition of a heat-conducting filler of a certain concentration allows the heat generated during friction to freely flow through the body of the body, which is important for leveling the temperature expansions of the piston material and the cylindrical nozzle. The alignment of the heat-conducting network of the adhesive composition and the part with a higher temperature makes it possible to shorten the curing time of the adhesive film / foam, which absorbs heat faster in this case.

All this in the complex increases the reliability of the adhesive joint and the service life of the critical parts operating at elevated temperatures and variable loads.

Claims (3)

1. The method of adhesive bonding of concentrically arranged parts, including the steps of assembling the parts, applying the adhesive composition and pressing the bonded surface nstere one to another by appropriately changing the diametrical size of the surfaces to be glued by the amount of shrinkage of the adhesive composition, followed by their return to the initial state with the shrinkage rate of the adhesive composition, characterized in that, in order to increase the reliability and quality of the joint and ensure the possibility of gluing parts of fragile materials , changing the diametrical size and applying the adhesive composition is carried out before assembling the parts, with the specified size change being thermally treated and returning to the initial state is carried out by periodically heating or cooling the corresponding part. 2. A method according to claim 1, characterized in that before applying the adhesive composition, metal powder with thermal conductivity greater than that of the material to be glued parts is added to it, in an amount that balances the thermal conductivity of the resulting adhesive composition with the thermal conductivity of the material of one of the glued parts . 3. A method according to claim 2, characterized in that 5 the metallic powder is added in an amount that balances the thermal conductivity of the adhesive composition and the higher temperature component. five