RU2496989C1 - Method of linear friction welding of vanes with disc to make blisk - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: in making vaned disc with multiple vanes jointed said disc radially, vane with ledge to joint it to said disc is formed and said ledge is jointed to disc kedge by linear friction welding. Prior to linear friction welding, said vane is clamped in tooling, brought in contact with said disc and loaded with axial welding force. Then without reducing applied welding force, the vane is fixed in tooling by full clamping force to make linear friction welding by friction of vane and disc. Vane fixture is retained during the entire welding process.

EFFECT: higher quality of welding.

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Description

The invention relates to the aviation industry, in particular to a method for manufacturing a monoblock blade blade (blisk) mainly for use in a rotor of a gas turbine engine.

It is known that the quality of the weld in the manufacture of a blade disk is affected by the completeness of contact of the surfaces of the blade and the disk being welded during the welding process.

A known method of manufacturing or repairing a monoblock blade blade, which includes the stage of formation on a protruding platform, which is part of the disk and extends from its front end to the rear end, of a surface designed to provide the next stage of linear friction welding of the blade and the disk, and the surface contains at least two flat adjacent sections located sequentially along the protruding platform (RF patent No. 2364728, IPC F01D 5/34, publ. 08/20/2009).

A known method of manufacturing blisk containing many blades attached to the disk radially (European patent No. 1495829, IPC B23K 20/12, publ. 01.12.2005). The method includes:

- the formation of a blade having a protrusion for connection with the disk, the protrusion has a narrowing coefficient less than 2;

- connection of the protrusion of the blades with the disk by linear friction welding;

- machining of the allowance for the blade for its formation.

The method is taken as a prototype.

A disadvantage of the known methods is the insufficient quality of welding due to distortions of the weld caused by incomplete contact of the surfaces of the blades and the disc to be welded, due to the inaccuracy of the installation of the blades in the tool due to the error in its manufacture.

The objective of the invention is to improve the quality of welding by eliminating distortions of the weld, achieved by the completeness of contact of the welded surfaces of the blades and disc.

The problem is solved by a method for manufacturing a blisk containing a plurality of blades attached radially to the disk, in which a blade having a protrusion for connecting to the disk is formed, and the protrusion of the blade with the protrusion of the disk by linear friction welding. In contrast to the prototype, before linear friction welding, the blade is clamped in a snap with a small preliminary clamping force, brought into contact with the disk and loaded with axial welding force, after which, without reducing the applied welding force, the blade is fixed in snap with the full clamping force, in which linear welding is performed the friction of the blade and disk, and the resulting fixation of the blade is maintained throughout the entire welding process.

The technical result is achieved due to the following.

If the blade, or rather the surface of the blade, on which it is fixed in the snap, is made with deviations, then during assembly and fastening in the snap, the welded plane of the protrusion of the blade becomes non-parallel to the welded plane of the protrusion of the disk. With the full clamping force Fз and the application of the welding force Fcr, the friction forces between the clamped blade and the tooling are large, the inaccuracy of the installation is not eliminated. During welding, this leads to uneven heating and curvature of the weld line. The present invention, due to the application of a small preliminary clamping force, provides preliminary elastic deformation of the blade, which eliminates the inaccuracy of installing the blade in the snap.

The invention is illustrated by drawings, where:

figure 1 shows a disk and a plurality of blades attached radially to the disk by linear friction welding;

figure 2 - equipment for fixing the blades in the welding machine in a disassembled state.

Position 1 (figure 1) indicates the disk, position 2 - the blade for forming a monoblock blade blade. The disk 1 and the blade 2 have protrusions 3 and 4, respectively containing flat surfaces 5 and 6. The blade 2 contains a technological allowance 7, designed to secure the blades 2 in the snap 8 (figure 2). The blade 2 in the welding machine is fixed by the fastening screws 9. In addition, Fig. 1 shows Fcj - welding force (compression force), and in Fig. 2 Fc - clamping force.

The invention is as follows. Equipment 8 is installed in a welding machine for linear friction welding. After that, the blade 2 is installed in the snap 8 and secured with the fastening screws 9 with a small preliminary clamping force Fz equal to 1 kN.

The disk 1 mounted on the welding machine approaches the blade 2 and the surface 5 is brought into contact with it along the surface 6 of the blade with the welding force (compression force) equal to Fcr = 60 kN. The oscillation mode is turned off (the reciprocating motion of the scapula is reduced to zero). The parts of the blade that are clamped into the tooling undergo elastic deformation, as a result of which the inaccuracy of the installation of the blade in the tool due to the manufacturing error of the blade is eliminated.

Next, the screws 9 are tightened with a full clamping force Fз equal to 40 kN. Only after this, the blade 2 is introduced into the oscillation mode, performing a reciprocating motion. When a certain precipitation is reached, the oscillation ceases, the compressive force Fc is held for some time. After removal of the welding force Fc, welding is completed.

Thus, the invention improves the quality of welding by eliminating distortions of the weld, achieved by the completeness of the contact of the welded surfaces of the blade and disk.

Claims (1)

A method of manufacturing a blisk containing a plurality of blades attached radially to the disk, in which a blade having a protrusion for connecting to the disk is formed; by the clamping force, they are brought into contact with the disk and loaded with axial welding force, after which, without reducing the applied welding force, the blade is fixed in a snap with the full clamping force ment, which is carried out at a linear welding blade and the disc friction, the fixing blades obtained is maintained for the entire welding process.

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