METHOD FOR PRODUCING A HOLLOW SUPPORT FROM A FIBER COMPOSITE MATERIAL, CORE DESIGNED AS A HOLLOW BODY, USE OF SAID CORE, AND USE OF SAID HOLLOW SUPPORT MADE FROM FIBER COMPOSITE MATERIAL

Abstract

The application relates to a method for producing a hollow support from a fiber composite material, to a core designed as a hollow body, to the use of said core, and to the use of said hollow support made from fiber composite material.

Claims

1. Method for producing a hollow support from a fibre composite material, comprising at least the following method steps: a) preparing a moulded body, formed as a hollow body, from a fibre composite material comprising reinforcing fibres and a soluble plastic matrix made of a matrix material soluble using a solvent; b) arranging a vacuum setup comprising at least one, preferably several, film-like layers, or a pressure hose, on the outer surface of the moulded body; c) depositing the reinforcing fibres of the hollow support on the outer surface of the vacuum setup or pressure hose arranged on the outer surface of the moulded body form a hollow support preform; d) arranging the hollow support preform in an outer tool; e) infiltrating the reinforcing fibres of the hollow support with matrix material; f) generating a negative pressure between vacuum setup and inner surface of the outer tool or a positive pressure between outer surface of the moulded body and pressure hose; g) consolidating the fibre composite of the hollow support made of reinforcing fibres and matrix material with the formation of an outer surface of the hollow support formed on the inner surface of the outer tool; h) removing the consolidated hollow support from the outer tool; i) removing the soluble plastic matrix of the moulded body by dissolving using a solvent; j) removing the reinforcing fibres of the moulded body and of the vacuum setup via one of the front sides of the hollow support.

2. Method for producing a hollow support from a fibre composite material according to claim 1, wherein the preparation of the moulded body in method step a) comprises forming the outer surface of the moulded body made of fibre composite material on the inner surface of a two- or multi-part outer tool or forming the inner surface of the moulded body made of fibre composite material on the outer surface of a core as inner tool.

3. Method for producing a hollow support from a fibre composite material according to claim 1, wherein the preparation of the moulded body comprises the depositing of sheets made of a woven fabric or a preferably unidirectional non-crimp fabric pre-finished by impregnation with the soluble matrix material; or the depositing of unimpregnated woven fabric or a preferably unidirectional unimpregnated non-crimp fabric and the impregnation in layers with the soluble matrix material.

4. Method for producing a hollow support from a fibre composite material according to claim 1, wherein the matrix material of the moulded body is soluble in water.

5. Method for producing a hollow support from a fibre composite material according to claim 4, wherein the matrix material of the moulded body is polyvinyl alcohol (PVA).

6. Method for producing a hollow support from a fibre composite material according to claim 1, wherein the vacuum setup comprises at least one layer consisting of a vacuum film.

7. Method for producing a hollow support from a fibre composite material according to claim 1, wherein the vacuum setup comprises at least one layer consisting of a semi-permeable membrane.

8. Method for producing a hollow support from a fibre composite material according to claim 1, wherein the reinforcing fibres of the hollow support are deposited in a braided form in method step c).

9. An inherently stable core, formed as a hollow body, for producing a hollow support from a fibre composite material, comprising a water-soluble plastic matrix made of polyvinyl alcohol.

10. Use of a core according to claim 9 for fibre deposition for producing hollow supports from fibre composite material.

11. Use of a hollow support, made of fibre composite material, produced using the method according to claim 1, as longitudinal or cross beam of a frame of a bogie for a rail vehicle.

12. Method for producing a hollow support from a fibre composite material according to claim 2, wherein the preparation of the moulded body comprises the depositing of sheets made of a woven fabric or a preferably unidirectional non-crimp fabric pre-finished by impregnation with the soluble matrix material; or the depositing of unimpregnated woven fabric or a preferably unidirectional unimpregnated non-crimp fabric and the impregnation in layers with the soluble matrix material.

13. Method for producing a hollow support from a fibre composite material according to claim 2, wherein the matrix material of the moulded body is soluble in water.

14. Method for producing a hollow support from a fibre composite material according to claim 3, wherein the matrix material of the moulded body is soluble in water.

15. Method for producing a hollow support from a fibre composite material according to claim 2, wherein the vacuum setup comprises at least one layer consisting of a vacuum film.

16. Method for producing a hollow support from a fibre composite material according to claim 3, wherein the vacuum setup comprises at least one layer consisting of a vacuum film.

17. Method for producing a hollow support from a fibre composite material according to claim 4, wherein the vacuum setup comprises at least one layer consisting of a vacuum film.

18. Method for producing a hollow support from a fibre composite material according to claim 5, wherein the vacuum setup comprises at least one layer consisting of a vacuum film.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0042] Embodiment examples of the invention are explained below with reference to figures, without limiting the invention to them.

DETAILED DESCRIPTION

[0043] FIG. 1 shows a hollow support 1 made of fibre composite material with a complex geometry, produced using the method according to the invention. The hollow support 1 can be used as a longitudinal beam of a bogie for a rail vehicle. The hollow support 1 has a multiply curved outer contour and a cross section that varies in the longitudinal direction of the beam. The shape of the outer contour of the core used for the production of the hollow support 1 (not represented) corresponds to that of the hollow support 1. The reinforcing fibres of the hollow support 1 are deposited on the VAP setup (not represented), which is arranged on the core (not represented), at least partially in braided form using one braiding gear or several braiding gears. The reinforcing fibres are carbon fibres; an epoxy resin is used as matrix material. After the water-soluble PVA matrix used for the core has been dissolved and flushed out of the hollow support interior, the remaining core residues, e.g. the reinforcing fibres (also carbon fibres) of the core, as well as the VAP setup can be removed from the hollow support interior via the open front side 2 of the hollow support 1.

[0044] FIG. 2 illustrates the arrangement of a hollow support preform 3 in an outer tool 4. The hollow support preform 3 comprises (from the inside out) the core 5, the VAP setup 6 and the reinforcing fibres 7 of the hollow support. The core 5 is a hollow body made of a fibre composite material with a water-soluble plastic matrix, in particular a PVA matrix.

[0045] The VAP setup 6 encasing the core 5 is constructed of several layers and can also comprise for example, in addition to a gas-permeable layer that is, however, impermeable to matrix material, a flow-promoter layer, a protective non-woven fabric and a vacuum film layer. A vacuum film layer is arranged on the core. The carbon reinforcing fibres 7 of the hollow support are deposited on the VAP setup 6.

[0046] After the hollow support preform 3 is placed in the outer tool 4, a negative pressure is generated by pumping the air out of the negative pressure space 8 between the reinforcing fibres 7 of the hollow support and the VAP setup 6. The VAP setup thereby bears on the reinforcing fibres 7 of the hollow support and presses them against the inner surface of the outer tool 4. If the matrix material of the hollow support is infiltrated while the air is being pumped out of the negative pressure space 8, it can wet the reinforcing fibres 7 particularly evenly, and a high infiltration quality is achieved.

[0047] For thin-walled components a sufficient infiltration quality can also be achieved if the multi-layered VAP setup with the final vacuum film layer arranged on the core is replaced by a single vacuum film layer or a pressure hose (not represented). If a pressure hose is used, a positive pressure is generated in the interspace 9, instead of a negative pressure in the negative pressure space 8, as a result of which the pressure hose is pressed against the reinforcing fibres 7.

[0048] The consolidation of the fibre composite of the hollow support under increased temperature follows the described method steps.

REFERENCE NUMBERS

[0049] 1 hollow support [0050] 2 front side [0051] 3 hollow support preform [0052] 4 outer tool [0053] 5 core [0054] 6 VAP setup [0055] 7 reinforcing fibres [0056] 8 negative pressure space [0057] 9 interspace