This application claims priority to French Patent Application No. 1556042, filed Jun. 29, 2015, the entire content of which is incorporated herein by reference in its entirety.
The present invention relates to making composite material parts and more particularly to making fiber reinforcement for such parts by three-dimensional (3D) or multilayer weaving.
A field of application of the invention is making structural parts out of composite material, i.e. structural parts having fiber reinforcement that is densified with a matrix. Composite materials are used to make parts presenting overall weight that is less than the weight of the same parts when made out of metal material.
3D or multilayer weaving of fiber structures for constituting the fiber reinforcement of a composite material part, e.g. such as an aeroengine blade, is performed in a Jacquard type loom, the weaving consisting in inserting weft yarns so as to create a pattern between warp yarns. The warp yarns are organized in the harness of the loom as a plurality of layers and of columns that are manipulated by the loom so as to enable weft yarns to be inserted in compliance with the weaving pattern(s) programmed in the loom. The weft yarns are inserted in columns between the warp yarns.
In order to enable each column of weft yarns to be inserted while weaving the fiber structure, a warp yarn take-up system is associated with the loom. This system, which is located downstream from the loom, serves to hold all of the warp yarns together in a clamping device and to enable the warp yarns to advance through a determined distance after each column of weft yarns has been inserted.
Thus, when beginning new weaving of a fiber structure, it is necessary to clamp the warp yarns downstream from the loom. In addition, in the context of fabricating a series of fiber structures, e.g. fiber structures for forming reinforcement for turbine engine blades, it is necessary for the warp yarns to be clamped between each of the fiber structures.
The clamping device normally used is made up of two clamps 10 and 11, as shown in
This disorganization of the warp yarns where they are clamped downstream from the loom leads to undesirable and uncontrolled sliding between the warp yarns, thereby disturbing the weaving within the fiber structure and harming its quality. The thicker the fiber structure, the greater the number of warp yarns and the greater the number of warp yarn layers that are needed for weaving. By way of example, it is necessary to use about 4000 warp yarns arranged in 20 layers in order to weave a fiber structure that is to form the fiber reinforcement of an aeroengine fan blade. The impact of the clamping on disorganizing the warp yarns is increased with increasing number of warp yarn layers.
In order to reduce this impact, the distance between the clamping device and the beginning of the woven fiber structure is increased. Nevertheless, that leads to a significant loss of yarn when cutting the yarns in order to extract the fiber structure, and that loss significantly penalizes the cost of fabrication.
It is therefore desirable to be able to weave 3D or multilayer fiber structures with high quality weaving while minimizing losses of material.
To this end, an aspect of the invention provides a warp yarn take-up system comprising a clamping device for holding a plurality of layers of warp yarns, the clamping device being movable at least in a direction corresponding to the advance direction of the warp yarns, wherein the clamping device comprises a bottom clamp, a top clamp, and at least one intermediate clamping element present between the bottom clamp and the top clamp, and wherein the bottom clamp, the top clamp, and the intermediate clamping element(s) are held together by clamping.
The use of one or more intermediate clamping elements makes it possible locally to reduce the number of warp yarn layers that are clamped together. Specifically, the plurality of warp yarn layers is subdivided into a plurality of layer subsets, each of which is held between one of the two main clamps and an intermediate clamping element or between two intermediate clamping elements. By limiting the number of layers of warp yarns that are clamped together in this way, it is possible to conserve better the organization of warp yarns as defined upstream in the harness of the loom, and thus improve the quality of the fiber structures that are woven, and in particular the quality of thick fiber structures.
According to a particular characteristic of the system of the invention, the bottom clamp, the top clamp, and the intermediate clamping element(s) include one or more portions for coming into contact with the warp yarns during clamping of the clamping device, and each of these portions is covered in a layer of soft material. This avoids damaging the warp yarns while they are being clamped, while continuing to fit closely to the shape of the fiber structure so as to facilitate clamping. The soft material may in particular be selected from at least of the following materials: elastomer, rubber, silicone, copolymer.
An embodiment of the invention also provides a Jacquard type loom, characterized in that it includes a warp yarn take-up system of the invention.
An aspect of the invention also provides a method of fabricating at least one fiber structure by three-dimensional or multilayer weaving between a plurality of layers of warp yarns interlinked by weft yarns, the method including the steps of:
It is thus possible to weave a fiber structure, even a thick structure, while conserving the overall organization of the warp yarns as defined upstream in the harness of the loom, and thus obtain woven fiber structures that are of good quality.
In an aspect of the method of the invention, a second fiber structure is woven using the same plurality of weft yarn layers as is used in the first fiber structure, a non-woven portion of warp yarns lying between the two fiber structures, the clamping device then being put into place on the non-woven portion. Since the clamping device used herein upsets the organization of warp yarns defined in the harness of the loom little or not at all, it is possible to minimize the length of the non-woven portion, and consequently to reduce the loss of material constituting the warp yarns, where the non-woven portion corresponds to a sacrificial zone of the warp yarns.
Other characteristics and benefits of the invention appear from the following description of particular embodiments of the invention given as non-limiting examples and with reference to the accompanying drawings, in which:
The invention applies in general manner to making fiber structures suitable for constituting fiber reinforcement, or preforms, for fabricating composite material parts, the parts being obtained by densifying fiber structures with a matrix. The matrix is typically a resin for composite materials that are used at temperatures that are not very high, typically up to 300° C., or else it is a refractory material such as carbon or a ceramic for thermostructural composites.
The fiber structure of the invention is obtained by three-dimensional weaving or by multilayer weaving.
The terms “three-dimensional weaving” or “3D weaving” are used herein to mean weaving in which at least some of the weft yarns link together warp yarns over a plurality of warp layers, or vice versa. 3D weaving may be of the interlock type, as described in Document WO 2006/136755.
The term “multilayer weaving” is used herein to specify 3D weaving with a plurality of warp layers in which the base weave of each layer is equivalent to a conventional 2D weave, such as a plain, satin, or serge type weave, but with certain points of the weave interlinking warp layers or vice versa.
Making the fiber structure by 3D weaving or multilayer weaving enables layers to be linked together in a single textile operation, and thus makes it possible to have good mechanical cohesion for the fiber structure and for the resulting composite material part.
The warp yarns 201 are taken from bobbins arranged on a creel (not shown in
There follows a description of a weaving method in accordance with an implementation of the invention.
Once the intermediate clamping elements 330 and 331 have been inserted between the warp yarn layers, as described above, the clamps 310 and 320 are clamped together, in this example by means of clamping members 301 and 302, so as to hold together all of the warp yarn layers C1 to C15 in the clamping device 340 (
As shown in
Once all of the warp yarns of the layers C1 to C15 are clamped between the clamps 310, 320 and the intermediate clamping elements 330, 331 of the clamping device 340, the weaving of a first fiber structure 410 can be begun by the loom 100 (
Once the first fiber structure 410 has been woven, a second fiber structure 420 is woven, the second structure 420 being separated from the structure 410 by a portion 415 of warp yarns 201 that are not woven with weft yarns (
Once all of the warp yarn layers C1 to C15 are held in the clamping device 340, the warp yarns 201 present in the portion 415 downstream from the clamping device 340 are cut in order to extract the first fiber structure 410 (
Thereafter, the clamping device is put back into movement while at the same time weaving is restarted in the loom 100 so as to continue weaving the second fiber structure 420. The above-described operations are repeated for all of the other fiber structures that are to be woven.
According to a particular characteristic of the invention, the portions of the clamps and of the intermediate clamping elements that are to come into contact with the warp yarns are covered in respective layers of soft material such as elastomer layers. As shown in
Number | Date | Country | Kind |
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1556042 | Jun 2015 | FR | national |