RU2770124C1 - Method for manufacturing a honeycomb filler from polymer composite materials - Google Patents

Abstract

FIELD: composite materials.SUBSTANCE: invention relates to a method for manufacturing a honeycomb filler from polymer composite materials for multilayer panels and shells. The invention can be used for the manufacture of products with high specific mechanical characteristics in aviation and rocket and space technology. A method for manufacturing a honeycomb filler from polymer composite materials, including laying the reinforcing material into a mold by alternating the material and forming rods to a given thickness, then the material is cured and the rods are dismantled. What is new in the invention is that the dry reinforcing material is uniformly impregnated with a binder under pressure after being placed in a sealed mold, the inner surface of which repeats the outer surface of the honeycomb filler. After solidification, the molds are disassembled, the forming rods are removed and the honeycomb filler is ready for use in multilayer panels and shells.EFFECT: presented method makes it possible to produce honeycomb fillers of various heights, with various shapes and sizes of cells.1 cl, 4 dwg, 1 tbl

Description

The invention relates to methods for manufacturing honeycomb filler from polymer composite materials for use in three-layer structures. The invention can be used for the manufacture of products with high specific mechanical characteristics in aviation and rocket and space technology.

Known methods of manufacturing a honeycomb filler - a method of stretching a honeycomb package (patent RU 2272712 C1, RU 2540665 C1). The essence of the method lies in gluing dry reinforcing material with adhesive strips through a certain step. After the glue has dried, the package is stretched to form a hexagonal cell and then lowered into a container with a binder. The next step is polymerization in drying ovens.

This method is highly productive, but requires a large amount of auxiliary equipment. With this method, it is possible to produce honeycombs from polymer composite materials with only a hexagonal cell.

As a prototype, a method for manufacturing a honeycomb filler from a prepreg (reinforcing material), which is a sheet of woven or non-woven fibrous materials impregnated with non-cured polymer binders (patent DE3710416 A1 dated 13/10.1988), was chosen. The method includes laying a prepreg into a mold by alternating reinforcing material and forming rods to a predetermined thickness, in which a rigid hexagonal rod is selected as a forming element. In this method, the prepreg is formed with hexagonal rods assembled and fixed into a grid. The polymerization of the prepreg is carried out in an oven, then the structure is cooled and the rods are dismantled.

The disadvantages of this method include: the inability to ensure uniform gluing of the honeycomb core, due to the occurrence of gaps between the forming rods, which affects the quality of the product. When laying the prepreg in this way, internal stresses arise in the material, because hexagonal rods stretch the prepreg, which adversely affect the mechanical characteristics of the honeycomb core. It should be noted that the use of prepreg in the construction of honeycomb filler increases the cost of the product. Also, technological equipment must withstand high temperatures in the drying cabinet. In this way, it is possible to produce honeycomb cores of only one type-size of cells.

The task to be solved by the claimed invention is to ensure uniform gluing of the honeycomb core, which ensures the quality of the product, the elimination of internal stresses in the material that affect the mechanical characteristics of the honeycomb core, and to reduce the effect of high temperatures on the tooling.

This problem is solved due to the fact that the claimed method of manufacturing a honeycomb filler from polymer composite materials includes laying a reinforcing material into a mold by alternating the material and forming rods to a predetermined thickness, then the reinforcing material is cured and the rods are dismantled. The novelty of the method is that the dry reinforcing material is evenly impregnated with a binder under pressure (during) after it is laid in a sealed form, the inner surface of which repeats the outer surface of the honeycomb core.

The technical result provided by the above set of features is the possibility of manufacturing a honeycomb core with the required geometric accuracy and high specific mechanical characteristics, as well as using a cold curing binder, which eliminates the effects of high temperatures on the tooling.

The essence of the invention is illustrated by drawings:

in fig. 1 - scheme of laying dry reinforcing material;

in fig. 2 - scheme of honeycomb core impregnation under pressure;

in fig. 3 - geometric characteristics of the honeycomb core;

in fig. 4 - photograph of the manufactured honeycomb core.

The honeycomb core manufacturing method consists of several stages. The layout of the dry reinforcing material is shown in Fig. 1. First, the reinforcing material 2 is cut out according to the dimensions of the product. Laying of the reinforcing material in the form is carried out by alternating the reinforcing material 2 and forming rods 3 to a predetermined thickness. The last layer is pressed with a special cover 4, which has protrusions equal to half the height of the forming rods (not shown in the figure). Surface 1 has the same protrusions.

The entire composition is installed in a sealed mold 5 shown in FIG. 2. Surface 1 and cover 4 shown in FIG. 1 may be part of this form. In this case, side flanges are mounted (not shown in figure 1), which are in close contact with the rods 3 and ensure the tightness of the internal cavity, where the dry reinforcing material 2 is located. container 9, and impregnates the dry reinforcing material 2. Uniform impregnation of the reinforcing material occurs due to the reduced pressure in the structure created by the vacuum system shown in FIG. 2. Impregnation continues until the binder fills the inner cavity of the mold, after which the locking devices 6 and 7 are closed. The excess binder 8 flows into the container 10. Then the polymerization process is carried out.

After the binder hardens, the resulting honeycomb with cores is taken out of the mold. Then the rigid shaping rods are dismantled from the honeycomb core. The cured binder firmly holds the fiber layers together, thereby providing the shape of the structure.

To confirm the feasibility of this technology, a hexagonal honeycomb core was made with the following overall dimensions: 70 * 73, height 40 mm, cell size 8 mm, which is shown in Figs. 3 and 4. Reinforcing material: fiberglass. Binder: epoxy resin ED-20 with cold curing hardener ETAL.

A method for manufacturing a honeycomb filler from polymer composite materials, including laying a reinforcing material into a mold by alternating the material and forming rods to a predetermined thickness. Then the dry reinforcing material is evenly impregnated with a binder under reduced pressure and polymerized.

After hardening, the mold is disassembled, the forming cores are removed and the honeycomb core is ready for use in multilayer panels and shells. The presented method makes it possible to produce honeycomb cores of various heights, with various shapes and sizes of cells.

Table 1 shows the characteristics of the obtained prototype honeycomb core, the mass of the structure is 45 g, and the bulk density is 220 kg/m. The volume fraction of the filler is 38%.

It should be noted that the proposed method can be used to produce not only hexagonal cells, but also many other options. The shape and size of the cell will depend only on the shape and size of the rods. The method of laying the reinforcing material does not change.

This method can be used to produce honeycomb cores with any radius of curvature. Currently, this is ensured by milling the finished honeycomb core. To manufacture a honeycomb core with a curvature, it is necessary to make a tooling that will repeat the curved shape of the product.

The proposed method has the following advantages: the ability to produce complex-shaped parts with high geometric accuracy, high mechanical characteristics of the honeycomb filler and high productivity, which ensures improved product quality.

Claims (1)

A method for manufacturing a honeycomb core from polymer composite materials, including laying a reinforcing material into a mold by alternating the material and forming rods to a predetermined thickness, then the material is cured and the rods are dismantled, characterized in that the dry reinforcing material is uniformly impregnated with a binder under pressure after laying in a sealed mold, the inner surface of which repeats the outer surface of the honeycomb core.

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