RU2596894C1 - Drum of turbine machine rotor - Google Patents

Abstract

FIELD: aviation.

SUBSTANCE: invention relates to turbine machine rotors, used in aviation. Drum of turbine machine rotor is made in form of hollow cylindrical body of rotation around longitudinal axis with one or more rims with means for attachment of blade tails, located in equal intervals along external surface, wherein drum is made from metal matrix composite with crosswise arrangement of reinforcing fibres, and means to secure blade tails are made in form of root elements for welding in form of blade profile, wherein on drum inner surface of composite material there are overlaps, flanges or journals with embedded elements for welding, wherein beads are arranged at root elements. Metal matrix composite is formed by fusion of one part of wound, at least at one angle and other part of "stringy" fibres of SiC enclosed into a matrix of titanium alloy.

EFFECT: reduced weight, higher reliability, strength of drum rim part, as well as ease of manufacture.

1 cl, 2 dwg

Description

The invention relates to rotors of turbomachines used in aviation, in particular to the design of a drum forming an axial-type compressor rotor, in which one drum is used to install several crowns of blades of various stages.

The closest in design and the achieved result is a turbomachine rotor drum made in the form of a hollow cylindrical body of revolution around the longitudinal axis, with one or more crowns with means for attaching the shanks of the blades located at regular intervals on the outer surface (RU No. 2314437, IPC F04D 29 / 28, published January 10, 2008).

The disadvantages of the design of the drum are the large weight of the material of the drum, the high cost of manufacturing the structure due to the large number of operations when processing the blades in the rotor, the lack of manufacturability of the design, due to the need to manufacture each impeller from a solid metal billet with an extremely low utilization of the material, the number of various operations for processing the blades in the composition of the impeller, lack of maintainability structure due to the inability to replace the blades in the impeller when they are damaged.

The problem to which the present invention is directed, is to create a drum that eliminates the above disadvantages.

The expected technical result is a decrease in mass, an increase in the manufacturability of the structure, an increase in reliability, an increase in the strength of the rim of the drum, and an increase in maintainability.

The expected technical result is achieved in that the rotor drum of the turbomachine, made in the form of a hollow cylindrical body of revolution around the longitudinal axis, with one or more crowns with means for attaching the shanks of the blades located at regular intervals on the outer surface, according to the invention, is made of a metal matrix composite with a cross laying reinforcing fibers, and the means for attaching the shanks of the blades are made in the form of root elements for welding according to the shape of the blade profile, while on the inside nney drum surface of a composite formed nodules, flanges or pins with embedded elements for welding, wherein the nodules located under the root element. The metal-matrix composite can be formed by fusing one part of at least one angle wound and another part of “knitted” SiC fibers enclosed in a matrix of a titanium alloy.

According to the invention, the drum as a composite material contains a metal matrix composite in the form of an alloy reinforced with non-metallic fibers with their cross-laying. In fact, the present invention proposes the use of a composite material containing fibers and an alloy matrix for the manufacture of a drum, the composite material playing the role of an element that receives loads from centrifugal forces acting on the drum, as well as loads created by the action of centrifugal forces on the blades. At the same time, the composite forms the flow part of the drum and is the basis for fastening the connecting elements (flanges, etc.). The fibers used are preferably long wound fibers, which give the composite element high mechanical tensile strength, which, when wound in the form of a drum, provides increased (compared with the drum material) resistance to centrifugal forces, in particular stiffness. The preferred use of silicon carbide fibers. However, it is also possible to use fibers from other materials, such as boron (in the form of boron carbide or boron carbonitride), titanium carbide, titanium carbonitride and alumina. These materials are much lighter, which leads to a significant reduction in the mass of the structure.

Another feature of the invention is that the means for fastening the shank of the blade on the drum are made in the form of a root element for welding according to the shape of the profile of the blade, which allows to reduce the necessary dimensions of the hubs of the “disks” (up to degeneration of the hubs), which is due to the lower load on the drum from centrifugal forces by reducing the mass of the blades and the rim and increasing the strength of its rim.

A metal-matrix composite is formed over the entire outer surface of the body of revolution with a layer with a thickness not exceeding the height of the root element, which ensures the strength properties of the drum. At the same time, the thickness of the coating layer should not exceed the height of the root element that forms the surface for welding the feather of the blade, which increases the manufacturability of the structure, minimizes the size of the workpiece blanks of the working blades, significantly reduces the amount of machining and allows the replacement of individual blades.

Cross-stacked metal matrix composite reinforcing fibers can be manufactured using various technologies. For example, by the method of layer-by-layer winding of fibers and filling with a powder alloy after each layer and subsequent alloy fusion with the formation of a metal composite. Alloys based on titanium, nickel, and aluminum can be used as an alloy.

Preferably, the metal-matrix composite on the housing can be formed from one part of at least one angle wound and another part of “fused” SiC fibers enclosed in a matrix of titanium alloy with their subsequent fusion. The implementation of a layer of “felted” fibers in a metal matrix composite allows one to exclude the occurrence of directed deformation centers in the composite.

The invention is illustrated by drawings.

Figure 1 - drum rotor of a turbomachine;

Figure 2 - nodes A and B of the drum.

The drum of the turbomachine rotor is a casing 1, welded from monowheels to the stage of welding the blades to the root element of the blade 2 formed on the disk. To ensure the structural strength, the peripheral part of the drum is formed of a metal matrix composite 3 with cross-laying of reinforcing fibers 4, even before welding of the blades. From the side of the flow part, the surface is not further processed, the blades are welded to the root elements protruding above the layer of the metal matrix composite.

During operation, the drum casing 1 and the metal matrix composite 3 with the cross-laying of reinforcing fibers are subjected to centrifugal force due to its rotation. The outwardly oriented resulting radial centrifugal force, which is the sum of the centrifugal forces created in the housing 1 and in the composite 3, is compensated by the tensile work of the fibers of the metal composite.

The use of the invention allows to significantly reduce the mass of the structure due to the use of lightweight and durable metal-matrix composite material, to further reduce the mass of the structure by reducing the required size of the hubs of the “disks” (up to degeneration of the hubs), due to the lower load on the drum from centrifugal forces due to lower weight and increased strength its rim, to increase the manufacturability of the design, which is ensured by the possibility of full automation of the manufacture of the rotor drum, minimizing the dimensions of the blanks of the working blades and a significant reduction in the volume of machining of the blades due to the lack of a locking part, to increase the reliability of the structure, which is ensured by higher strength properties of the metal matrix composite material compared to homogeneous metal, and to increase the maintainability of the structure, which is possible to replace individual blades by cutting them at the place of welding and subsequent welding of a new blade without disassembling the rotor.

Claims (2)

1. The rotor drum of the turbomachine, made in the form of a hollow cylindrical body of revolution around the longitudinal axis, with one or more crowns with means for fastening the shanks of the blades located at regular intervals on the outer surface, characterized in that the drum is made of a metal matrix composite with cross-laying reinforcing fibers, and the means for attaching the shanks of the blades are made in the form of root elements for welding according to the shape of the profile of the blade, while on the inner surface of the drum from the composite ying nodules, flanges or pins with embedded elements for welding, wherein the nodules located under the root element. 2. A drum according to claim 1, characterized in that the metal-matrix composite is formed by fusing one part of at least one angle wound and another part of “knitted” SiC fibers enclosed in a titanium alloy matrix.

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