EP3771757A1 - Armature triaxiale multicouches et son procédé de fabrication - Google Patents

Armature triaxiale multicouches et son procédé de fabrication Download PDF

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Publication number
EP3771757A1
EP3771757A1 EP19020449.5A EP19020449A EP3771757A1 EP 3771757 A1 EP3771757 A1 EP 3771757A1 EP 19020449 A EP19020449 A EP 19020449A EP 3771757 A1 EP3771757 A1 EP 3771757A1
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European Patent Office
Prior art keywords
yarns
axial
bias
armature
layers
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EP19020449.5A
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German (de)
English (en)
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EP3771757B1 (fr
Inventor
Georges Cahuzac
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Individual
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    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D37/00Circular looms
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D13/00Woven fabrics characterised by the special disposition of the warp or weft threads, e.g. with curved weft threads, with discontinuous warp threads, with diagonal warp or weft
    • D03D13/002With diagonal warps or wefts
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D25/00Woven fabrics not otherwise provided for
    • D03D25/005Three-dimensional woven fabrics
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D3/00Woven fabrics characterised by their shape
    • D03D3/02Tubular fabrics
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D41/00Looms not otherwise provided for, e.g. for weaving chenille yarn; Details peculiar to these looms
    • D03D41/004Looms for three-dimensional fabrics
    • DTEXTILES; PAPER
    • D10INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10BINDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10B2505/00Industrial
    • D10B2505/02Reinforcing materials; Prepregs

Definitions

  • the present invention relates to the domain of composite materials that are constituted by a textile armature, or long fibre reinforcement, impregnated with a resin named matrix.
  • That invention is a new type of textile armature and its manufacturing process that allows obtaining low cost parts with complex shapes, open or closed, with high mechanical performances.
  • Those armatures are obtained by using a completely new type of textile machinery named 3D Rotary Weaving Machine.
  • That invention is more precisely an armature with a new type of textile architecture, a triaxial multilayer woven textile reinforcement with a majority of the yarns in the longitudinal direction and a constant thickness. It's well known that for obtaining high performance composite materials, it's necessary that the yarns in those armatures have to have none or very few fibre crimps and don't create any internal void due to their crossing or linking. That is the goal and the result brightly achieved by this invention.
  • Our invention creates at high speed in-shape parts, by introducing in the center of the circular weaving machine a mandrel that is recovered by the yarns. It's an efficient and cheap way to obtain high performance composite parts.
  • That textile armature holds layers of axial yarns disposed in quincunxes and linked two by two by the bias yarns. The first axial layer is linked with the second layer by the bias yarns with one orientation while the second layer is linked with the third one by the bias yarns with the other orientation.
  • That textile armature is well done but is not symmetrical into its thickness and that can created some deformation during the polymerization with shrinkage of the resin matrix. Its manufacturing process consists in using a braiding machine that has notched wheels disposed in quincunxes inside a cylinder.
  • the path of the moving bobbins holding the bias yarns is obtained by the combination of the rotation of those notched wheels with the changing of angle of guiding needles. That mechanism is complex and could block the functioning if not correctly tuned.
  • the gears that are disposed in quincunxes under a cylinder are difficult to machine correctly.
  • This braiding machine is expensive to build and uneasy to tune.
  • Another example of prior art is given in the French patent Nb. FR2884836 invented by Georges CAHUZAC .
  • the described multilayer textile armature allows the realization of good quality parts. Its manufacturing process consists in using a very special type of braiding machine in which the bobbins carriers move sequentially in zigzag, which is a limitation in the braiding speed. The simultaneously deposition of all the yarn layers of a part compensates for that slow speed, but it's a less flexible process than a speedy deposition of some independent layers with optimized braiding for each one.
  • a third example of previous art is given in the European patent Nb EP 2 740 824 of Georges CAHUZAC .
  • That invention consists in a high quality triaxial textile armature, that has three fibre orientations, the first one axial and the two others making a angle, by example +60° et -60°, with the axial direction, in which those bias yarns don't cross each other during getting through the layer of axial yarns, but get it through in their said odd and even intervals.
  • the +60° yarns get through the axial yarn layer in each odd interval while the -60° yarn get through it in each even interval.
  • a braiding machine for making an armature in accordance is built with two circumferential rows of adjacent wheels and three rows of tubes for introducing the axial yarns.
  • the tubes of the external and internal rows are situated at the center of the notched wheels, while the tubes of the central row are situated at or near the crossing of the diagonals linking the axes of fourth adjacent wheels. That process makes armatures with only one layer of each bias yarns and three layers of axial yarns.
  • An armature in accordance with the invention has three yarn orientations, the main axial and the two others bias, making any angle, by example +60° et -60°, with that main axial direction.
  • the bias (or oblique) yarn never cross each one but are separated by a layer of axial yarns.
  • Each layer of axial yarns has two kinds of yarns: straight yarns and linking yarns.
  • Each layer of axial yarns is between two layers of bias yarns.
  • the straight axial yarns are separated by the linking yarns.
  • the layers of axial yarns are separated by layers of bias yarns.
  • linking yarns link the bias yarns of the layer under any axial layer with the bias yarns of the layer above this axial yarn layer, tying those straight axial yarns in-between these two layers of bias yarns and therefore making all the yarn layers of that armature linked together.
  • these shuttles are moving along circular tracks in alternate opposite direction from one track to the following one, each shuttle carrying one bobbin of bias yarn, a free moving space existing between these shuttles on their tracks to allow their quick crossing by tubes that deliver the linking yarns while the straight yarns are delivered by tubes situated between the circular tracks.
  • a 3D Rotary Weaving Machine in accordance with the invention has many circumferential tracks. This number depends of the thickness of the armature to weave. It's possible to dispose these tracks concentrically on a disk and each track has its own diameter, or on a cylinder and therefore all the tracks have the same diameter. In the both cases, all the yarns are moving to a central mandrel to recover it with the created armature, as in a braiding process.
  • the annexed figures will help to better understand how this invention can be made.
  • the figure 1 is a view of an example of a multilayer tri-axial armature in accordance with the invention.
  • the linking yarns (4) situated in the first layer of axial yarns (1) link the first layer of bias yarns (2) to the second layer of bias yarns (3).
  • the linking yarns (4) situated in the second layer of axial yarns (1) link the second layer of bias yarns (3) to the third layer of bias yarns (2).
  • the linking yarns (4) situated in the third layer of axial yarns (1) link the third layer of bias yarns (2) to the forth layer of bias yarns (3).
  • the linking yarns (4) situated in the forth layer of axial yarns (1) link the forth layer of bias yarns (3) to the fifth layer of bias yarns (2).
  • the linking yarns (4) separate the straight axial (1) inside each layer of axial yarns.
  • This armature is woven as a closed shape, usually a cylinder, but can be axially cut to obtain a flat armature, easily shapeable into any shape, due to the weak linking between the layers, allowing some sliding that increases the conformability of that armature into a mold.
  • the figures 2A,2B,2C are longitudinal sections perpendicular at the armature surface showing the parallelism into the thickness of the trajectories of the linking yarn (4), which avoids any creation of internal voids.
  • the figures 2A,2B,2C are longitudinal sections perpendicular at the armature surface showing the parallelism into the thickness of the trajectories of the linking yarn (4), which avoids any creation of internal voids.
  • Each linking yarns don't link directly a bias yarns (2) with a bias yarn (3), or the opposite, but keep parallel with the straight yarns (1) on a distance corresponding at a bias yarns.
  • Any internal bias yarn (2) or (3) is linked with bias yarns of the upper and lower layer of bias yarns.
  • the trajectory of the linking yarns (4) have two axial portions in each elementary motive of their trajectory, side by side with the axial yarns (1), before going on top of a bias yarn (2) or (3) and before going below a bias yarn (3) or (2) and therefore the length of a trajectory elementary motive is the length in the axial direction of 4 bias yarns (2) or (3).
  • the figure 2A shows an armature with only one linking yarn (4) between the straight yarns (1).
  • the figure 2B shows an armature with two linking yarns (4) between the straight yarns (1).
  • the figure 2C shows an armature with four linking yarns (4) between the straight yarns (1).
  • the figures 3 show the top view, or the surface, of this armature.
  • the unit cell of this armature has a dimension of 4 ⁇ 4.
  • a bias yarn (2) is recovered each 4 straight yarns (1).
  • Each linking yarns (4) become visible on the surface each 4 bias yarns (2).
  • the trajectory of the linking yarns (4) have two axial portions in each elementary motive of their trajectory, side by side with the axial yarns (1), before going on top of a bias yarn (2) or (3) and before going below a bias yarn (3) or (2) and therefore the length of a trajectory elementary motive is the length in the axial direction of 4 bias yarns (2) or (3).
  • the figure 3A shows an armature with only one linking yarn (4) between the straight yarns (1).
  • the figure 3B shows an armature with two linking yarns (4) between the straight yarns (1).
  • the figure 3C shows an armature with four linking yarns (4) between the straight yarns (1).
  • the figure 3D shows an armature with only one linking yarns (4) between the straight yarns (1), but their linking is axially shifted to have an armature with a smoother surface.
  • the figure 4 shows an axial section, a very schematic view of an average size 3D Rotary Weaving Machine in accordance with the invention.
  • the shuttles (9) move in opposite sense depending of the rank of their circumferential tracks
  • the top part of this figure shows the tubes (17), holding the linking yarns (4), while they are crossing through the shuttle (9) tracks.
  • These tubes (17) are linked together into the shape of a comb (18). All the combs (18) are linked together by a ring (19).
  • the tube (17) crossing of the shuttle tracks happens while the shuttles (9) are moving at a constant speed, allowed by circumferential voids situated between the shuttles (9).
  • the linking yarns (4) come from the bobbins (8) that don't move when the tubes (17) move.
  • the bottom part of that figure 4 shows the shuttles (9) moving through the tubes (16) that hold the straight axial yarns (1). Those tubes (16) don't move. The space between two shuttle tracks is in the range of 10mm. These straight yarns (1) come from the bobbins (5). We see on that figure 4 that all the yarns go to a central mandrel (30) on which they are tied, creating the armature (29).
  • the figure 5 shows a section view perpendicular to its axe of a little 3D Rotary Weaving Machine.
  • This figure 5 shows the configuration of such a machine which is mainly made by axial tiles (10) which held the mechanisms to guide and move the shuttles (9).
  • An axial space between each two tiles allows the track crossing by the tubes (17) delivering the linking yarns (4).
  • the bobbins (5) of the straight yarns (1) and the bobbins (8) of the linking yarns (4) are placed near their delivering tubes (16) and (17).
  • the figure 6 shows a tile (10) under which are fixed 3 drive shafts, the central drive shaft (11) turning in one sense and the lateral drive shafts (12) in the opposite sense.
  • a gear rack (15) is fixed on top of each shuttle (9) and gears (13) are fixed at the right position on each drive shaft to drive the shuttles on each track in the right sense. Therefore their positions on each drive shaft are alternated between the central drive shaft (11) and the lateral drive shafts (12), to be in accordance with the sense of displacement of the shuttles on their tracks. Only the gears (13) fixed on the lateral drive shafts are in the same plane. The gear fixed on the central drive shaft is at a position corresponding at the next shuttle track.
  • the figure 7 shows an axial section view of a tile (10).
  • a gearwheel (13) fixed to a driving shaft (11) moving a shuttle (9) guided by wheels (14) linked to that tile (10).
  • a void exists between the two shuttles. That void is necessary for putting in it the tubes (16) that are fixed on the tile while going through it. Only one gearwheel is shown because the other one isn't in the same plane.
  • the figure 8A shows the shuttles (9) moving along the tubes (17) while they are stopped between two tracks.
  • the figure 8B shows the tubes (17) quickly crossing the shuttles tracks while the shuttles (9) are moving.
  • the figure 9 shows how the central driving shaft (11) of a tile (10) drives the two lateral drive shafts (12) by the means of 3 gearwheels (20) situated at the tile end. That mechanism is at the rear end of the tiles in order of allowing the free displacement of the combs (18).
  • the figure 10 shows how all the drive shafts (11) are linked together by the mean of a chain (32) driving the pinions (21) fixed at their ends. That chain (32) goes on the pinions (22) that drive the Genova mechanisms and also on a pinion fixed on the electric motor, not shown, that makes that machine moving.
  • the figures 11 show how the four quick displacements of the ring (19) that hold the combs (18) on which the tubes (17) are fixed are created to deliver the linking yarns (4) between the shuttle tracks in accordance with their trajectories shown on figure 2 . Those displacements are created by a Genova mechanism.
  • the figures 11A to 11D show how while the command wheel (23) makes a complete turn, the Genova wheel (24) turns quickly only a quarter of turn and don't move during 3 ⁇ 4 of the command wheel turn (23).
  • FIGS 11E at 11H show the different positions of the groove (26) linked with the ring (19) in which the roll of the manifold (25) fixed on the Genova wheel (24).
  • a machine in accordance with this invention will have at least 3 Genova mechanisms at 120° per number of linking yarns (4).
  • Each wheel (23) is fixed on a 90° angular gearbox.
  • a gear is moved by the chain (32), or by a different chain also linked with the motor of that machine.
  • the first rotary weaving machine is schematically shown on figure 4 . It has 6 circular tracks for guiding the shuttles (9), the shuttles on the tracks 1, 3 and 5 going in a sense and the shuttles on the tracks 2, 4 and 6 going at the same speed but in the opposite sense.
  • the tile (10) number is 36 and hence the shuttle (9) number is 36 on each track giving a total number of 216 shuttles.
  • the pitch between two tracks is 80 mm, with a shuttle wideness of 70 mm to keep a 10 mm free space for the tubes (16) that distribute the straight yarns (1).
  • a comb (18) is placed between each two tiles, therefore this machine has 36 combs with 5 tubes (17) on each one, with a total of 180 tubes for delivering 180 linking yarns (4).
  • Each shuttle (9) carry a 64 mm diameter bobbin (6) or (7), with a mechanism to deliver its yarn with a constant tensile and at the required wideness.
  • These bobbins (6) or (7) are radially oriented, perpendicular with their shuttles (9).
  • the nominal diameter of such a rotary weaving machine is 1620 mm, situated at the contact diameter between the gear racks (15) with the pinions (13).
  • Each pinion nominal diameter is 45 mm, with 30 teeth modulus 1.5.
  • the shuttles move of 141.37 mm on the circumference corresponding at the machine nominal diameter.
  • the maximum length of each shuttle is 3 ⁇ 4 of this value hence 106 mm.
  • the free space between two tiles (10) is 15 mm.
  • the tile sides hold the guiding wheels, not shown, for guiding the combs (18).
  • the shuttle guiding wheel (14) number is 6 per shuttle per tracks per tile, hence 1296 with the disposition shown on figures 6 and 7 . It's also possible to decrease that number to 756 if each wheel guides the shuttles on two join tracks. But it's not possible in that case to tune the distance between two guiding wheels and all the parts have to be precisely machined.
  • the combs (18) are guided by wheels fixed on the tiles (10) and are linked together at a ring (19) moved axially by 3 Genova mechanisms creating 4 axial 80mm displacements each 4 circumferential shuttle displacements.
  • This displacement between the moving shuttles of the tubes delivering the linking yarns is made while the shuttles are moving at a constant speed. That is the reason why the working speed of such a rotary weaving machine is greater than any other existing machine making armatures for composite material parts. None comparable process exists today. The nominal speed of this machine is 6 displacements of the ring (19) per second, and hence a complete turn takes only 6 seconds.
  • This rotary weaving machine makes armatures with 5 layers of 36 straight yarns, 3 layers of 36 bias yarns at 45° and 3 layers of 36 bias yarns at -45°. All those layers are linked by 5 layers of 36 linking yarns. Each yarn in that armature could have its own nature and size.
  • the weaving speed is 1.5 m/mn or 90 m/h, on a 50mm diameter mandrel. If the bias yarns have a 6mm wideness and by weaving on a 100 mm diameter mandrel, the weaving speed is 3 m/mn or 180 m/h.
  • That armature could have a shape different of a straight cylinder, as the shape of the armature depends of the shape of the mandrel on which this armature is woven.
  • That machine has 12 tiles and 6 circular shuttle tracks. Hence it has 36 shafts and 108 pinions to move 72 shuttles guided by 432 wheels. Its nominal diameter is 1080 mm.
  • the pinions have 30 teeth modulus 1.5 and make two turns to move a shuttle from one tile to the following one creating a displacement of 282.7mm.
  • the bobbins are fixed parallel with the shuttles.
  • the Genova drive mechanism is turning at half the speed of the shaft speed to synchronize the comb displacements with the shuttle displacements.
  • the industrial machine size will be designed in accordance with the size of the parts to make. This size will be usually many meters in diameter, up to 10 or 12 meters for some applications.
  • the created cylindrical armature will be open to give a 2.3 m wide triaxial fabric made with 23 layers.
  • the bias yarns will have a 55° angle with the axial straight yarns.
  • the thickness will be 5.4 mm with a fibre volume fraction of 55%, and its area weight 5.3 Kg/m 2 dry and 8 Kg/m 2 after resin impregnation.
  • the weaving speed will be around 250 m/h or 3 Tons/h.
  • a 10 m rotary weaving machine will be very useful to quickly make wind mill blades with this new high speed process.
  • this new process is cheaper, as all the layers can be put in one path, with all the needed yarn orientations included in this armature.
  • the quality of the created fiber architecture is better than the one created by the Non Crimp Fabric because the number of axial yarn layers is greater and are situated between the bias yarn layers.
  • This armature has interlock architecture and it's well known that that is very good to resist shocks, by limiting delamination area. The most important thing: those machines allow to makes parts with a yarn deposit rate impossible to reach by any other existing process.
  • Those rotary weaving machines are well adapted to make in the aeronautical field blades for fan jet motors, for helicopters, or for making any kind of stiffeners and fuselage frames.
  • These armatures are woven with a closed shape. They can be axially cut to give flat multilayer triaxial fabrics for a lot of applications. They can be bent to obtain profiles with different shapes.
  • This invention is full of promise to become an important way for making composite parts with a huge range of possible applications, going from the aeronautical field, the cars lightening field and also the sport equipment field.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Looms (AREA)
  • Braiding, Manufacturing Of Bobbin-Net Or Lace, And Manufacturing Of Nets By Knotting (AREA)
EP19020449.5A 2019-07-29 2019-07-29 Armature triaxiale multicouche et machine de tissage circulaire Active EP3771757B1 (fr)

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EP19020449.5A EP3771757B1 (fr) 2019-07-29 2019-07-29 Armature triaxiale multicouche et machine de tissage circulaire

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EP19020449.5A EP3771757B1 (fr) 2019-07-29 2019-07-29 Armature triaxiale multicouche et machine de tissage circulaire

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EP3771757A1 true EP3771757A1 (fr) 2021-02-03
EP3771757B1 EP3771757B1 (fr) 2022-07-13

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113584682A (zh) * 2021-07-21 2021-11-02 航宸石家庄新材料科技有限公司 一种生产平面三向织物的圆织机

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1357969A (en) * 1918-03-27 1920-11-09 Pray Maglois P Du Shuttle
JPH01168933A (ja) * 1987-12-24 1989-07-04 Toyota Autom Loom Works Ltd 三次元環状織物及びその製造方法
FR2753993A1 (fr) 1996-10-01 1998-04-03 Aerospatiale Structure tubulaire tressee pour piece composite, sa realisation et ses applications
US6129122A (en) * 1999-06-16 2000-10-10 3Tex, Inc. Multiaxial three-dimensional (3-D) circular woven fabric
FR2884836A1 (fr) 2005-04-26 2006-10-27 Georges Jean Joseph An Cahuzac Tresseuse circulaire multicouche
EP2740824A1 (fr) 2012-12-07 2014-06-11 Vostech B.V. Armature textile triaxiale, procédé de production d'armatures textiles triaxiales et pièce en matériau composite

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1357969A (en) * 1918-03-27 1920-11-09 Pray Maglois P Du Shuttle
JPH01168933A (ja) * 1987-12-24 1989-07-04 Toyota Autom Loom Works Ltd 三次元環状織物及びその製造方法
FR2753993A1 (fr) 1996-10-01 1998-04-03 Aerospatiale Structure tubulaire tressee pour piece composite, sa realisation et ses applications
US6129122A (en) * 1999-06-16 2000-10-10 3Tex, Inc. Multiaxial three-dimensional (3-D) circular woven fabric
FR2884836A1 (fr) 2005-04-26 2006-10-27 Georges Jean Joseph An Cahuzac Tresseuse circulaire multicouche
EP2740824A1 (fr) 2012-12-07 2014-06-11 Vostech B.V. Armature textile triaxiale, procédé de production d'armatures textiles triaxiales et pièce en matériau composite

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113584682A (zh) * 2021-07-21 2021-11-02 航宸石家庄新材料科技有限公司 一种生产平面三向织物的圆织机

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