RU2337817C2 - Method for making objects from composite materials - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: processing of making objects from composite material involves depositing layers of initial material, saturated with binding substance, onto rigid mandrel and solidification of the obtained packet under effect of temperature and pressure in an autoclave. Later the work pieces undergo mechanical processing of dimensions. To increase the quality of the objects made from composite material, before solidification, on the outer surface of the packet of material a row of rubber bundles with a circular cross section of the same diameter is put, arranging the bundles along the packet uniformly along the perimeter. The bundles are tied to the initial material by scotch tape. After solidification, they are then unfastened and the bundles are then removed. The obtained work pieces undergo mechanical processing for dimensions.

EFFECT: higher quality of products from composite material through improvement of structure of material.

2 dwg

Description

The invention relates to a technology for manufacturing products from composite materials, namely, parts for power structures, for example, liners of nozzle blocks of solid propellant rocket engines (solid propellant rocket engines).

During engine operation, the material of the gas path liners of the RDTT nozzle blocks is exposed to high temperature and pressure, as well as to the strong erosive effect of solid fuel combustion products, which leads to increased requirements for the quality of manufacturing parts from composite materials.

A known method of manufacturing products from composite materials, including applying the binder-impregnated layers of the starting material onto a rigid mandrel and curing the resulting packet under the influence of temperature and pressure in an autoclave (see, for example, I.M. Bulanov, V.V. Vorobey, "Rocket technology and aerospace structures made of composite materials ". M., 1998. Publishing house of MSTU named after NE Bauman, p.146-148) - prototype.

The application of the known method for the manufacture of products from composite materials showed that on the outer surface there are defects in the form of radial folds that go inside the product, and in some cases can reach the inner surface. Folds are formed in the material package during shrinkage during the curing and subsequent cooling, are distributed unevenly around the product, and the height of the folds can reach a significant value.

When machining the outer surface of the product in the zone of high folds, a large number of layers (3 or more) of material can be cut, which reduces the strength of the product.

During operation of the product in a zone of significant fold height, destruction can occur, which is unacceptable for parts of solid propellant nozzles.

The presence of folds leads to a decrease in the quality of manufactured products from composite materials.

The technical task of this invention is to improve the quality of manufacturing products from composite materials.

The technical result is achieved by the fact that in the method of manufacturing products from composite materials, including applying the binder-impregnated layers of the starting material onto a rigid mandrel and curing the resulting package under the influence of temperature and pressure, a number of rubber bundles with the same circular cross section are placed on the outer surface of the material package before curing diameter, placing them along the generatrix of the package evenly around the perimeter, fix the harnesses, conduct curing, after curing the rafts siruyut harnesses and removed, and then produce a mechanical processing of the workpiece on resolution.

Placing on the outer surface of the material package a series of rubber tows arranged uniformly along the perimeter along the generatrix, it is possible to control the process of material redistribution during shrinkage on the mandrel during the curing time and subsequent cooling, while the formation of wrinkles in the installation areas of the harnesses is excluded, if there are slight distortions in the sections surfaces between these zones.

Fixing the bundles (fixing on the outer surface of the package of material) eliminates the possibility of shifting the bundles relative to each other during the curing of the material.

It was established by calculation and experimentally that, from the point of view of obtaining the best structure of the composite material, it is optimal to install bundles with a round cross section, while, for example, the use of bundles with a wedge-shaped cross section showed that unwanted ones form in the workpiece material in the areas of installation of such bundles voltage concentrators.

The use of bundles with a round cross-section of the same diameter allows for the same conditions of impact on the material during curing in each of the zones where the bundles are installed.

The essence of the method is illustrated by drawings.

Figure 1 shows a package of composite material on a mandrel placed in an autoclave.

Figure 2 shows a cross section of a package of composite material.

The manufacture of products by the proposed method is as follows.

On a metal mandrel 1, layers of the starting material 2, for example, carbon fabric, impregnated with a binder are applied (laid out or wound) until a packet of the required thickness is obtained.

A number of bundles of 3 (16 pieces) are made of rubber in a mold with a circular cross section of the same diameter (12 mm).

The harnesses 3 are placed on the outer surface of the material 2 applied to the mandrel 1, placing them along the generatrix of the package, evenly around its perimeter.

Fasten, for example, with tape-tape plaits 3 with material 2.

Place the mandrel 1 with the applied material 2 and the fixed bundles 3 in the autoclave 4 and seal it.

The mandrel 1 and the autoclave body 4 are heated to the curing temperature of the composite material using heating elements (not shown).

Increase the air pressure P in the autoclave 4 to the value required for the curing of the composite material 2.

Cure material 2 under the influence of temperature and pressure.

After curing the material 2, depressurize, cool and disassemble the autoclave 4, remove the adhesive tape, while unfastening the harnesses 3, and remove them.

Then produce the machining of the obtained billet of the composite material to size.

The results of the preparation of prototypes manufactured by the proposed method showed the presence of an almost uniform structure of the material of the finished part.

The use of the invention for the manufacture of inserts for the solid propellant nozzle block showed the absence of folds in the obtained blanks and confirmed the high adaptability of the proposed method while ensuring the required quality of manufacturing parts from composite materials.

Claims (1)

A method of manufacturing products from composite materials, including applying the binder-impregnated layers of the starting material onto a rigid mandrel, curing the resulting package under the influence of temperature and pressure, machining the workpiece to a size characterized in that a number of rubber bundles are placed on the outer surface of the starting material package with round cross-section of the same diameter, placing them along the generatrix, fasten the bundles with adhesive tape with the starting material, conduct curing s, after curing releasable and remove the harnesses.

Images