法国专利FR3029448A1 METHOD FOR MANUFACTURING A MOTOR VEHICLE PART IN REINFORCED THERMOPLASTIC MATERIAL

专利PDF首页>>法国专利

专利附录

专利说明

权利要求

类似技术

同族专利

引用文献

法律状态

优先权

专利摘要:
- A method of manufacturing a part (1) of a motor vehicle, in which said piece (1) is first made by molding of thermoplastic material (MTP) loaded, characterized in that it then reinforces said piece (1 ) and molded by positioning locally and on the surface of said part (1) at least one reinforcing element comprising strips (2) of unidirectional continuous fibers (3), and in that the strips are non-continuously deposited (2) on said workpiece (1) in at least one stress concentration zone (4).
公开号:FR3029448A1
申请号:FR1461961
申请日:2014-12-05
公开日:2016-06-10
发明作者:Issam Khayat；Jean-Francois Prat；David Tresse；Arnaud Escoffier
申请人:Plastic Omnium SA；
IPC主号:

专利说明:

[0001] The present invention relates to a method of manufacturing a semistructural part of a motor vehicle, such as an inner lining tailgate, reinforced thermoplastic material. A semi-structural part of a motor vehicle is called a part allowing the assembly integrating this part to be self-supporting, and making it possible to guarantee a geometry under a given load, without visible deformation. Known in the state of the art, a tailgate made of thermoplastic material comprising an outer skin of appearance and an inner lining of structure made of filled thermoplastic material. The thermoplastic material 10 constituting the liner is for example filled with glass fibers or talc to increase its strength properties. The limiting conditions that these products face are numerous and result in stress levels and deformations in different directions of the material and concentrated in certain areas. Without reinforcement of these zones, called zones of weakness, the stiffness and the geometry of the product would not be guaranteed and the specifications would not be satisfied. Therefore, the inner lining is reinforced by inserts-type reinforcing elements (metal or composite), overmoulded on the liner or reported after its molding, to improve their mechanical properties at the most stressed points (hinges, ball joints, lock ...). These inserts are for example screwed, snapped or riveted. This method of manufacturing a liner is long and complex because of the large number of operations to be performed after molding the filled plastic material. In addition, the design of overmolded inserts or inserts (metal or composite) must take into account the rules of sheet metal, stamping or shaping that often impose non-optimized geometries for sizing and lightening. Indeed, this results in the addition of unnecessary material reinforcements because it does not participate in the reinforcement. For this reason too, these metal or composite reinforcements can reach a significant mass at the scale of the part they must reinforce. In addition, the overmolding process of this insert strongly constrains the design of the part. This may result in a stiffness of this sheet or non-optimum composite insert to overcome these problems related to the overmolding process. In addition, it is known, for example from document FR2908067A1, to substitute these metal inserts by reinforcement thermosetting reinforcing fibers (pre-impregnated). Such reinforcements are usually available in the form of consolidated plates which can be shaped with suitable processes (stamping, draping, thermoforming or other ...) before overmolding. Generally, these reinforcements are overmolded with thermoplastic material.
[0002] However, the adhesion of thermosetting materials to the parts to be reinforced requires a mechanical fastening, such as holes. In addition, the desired geometries are not always achievable by these methods and impose a considerable number of feasibility iterations. It is necessary to compromise on the different objectives: mass, performance, cost of materials and processes. The aim of the invention is to propose a method for manufacturing a semistructural part of a motor vehicle, such as an opening (tailgate, side door, hood) or an opening lining, reinforced at least by a reinforcement element which does not have the disadvantages of known methods.
[0003] For this purpose, the subject of the invention is a method for manufacturing a motor vehicle part, in which said part is produced by molding filled thermoplastic material, and said part is reinforced by locally positioning at least one reinforcing element, wherein the reinforcing member comprises unidirectional continuous fiber strands and in that the strips are non-continuously deposited on said part in at least one stress concentration zone. The process avoids losses of material because the discontinuous removal of strips, avoids falling materials, and the necessary material is used where reinforcements are needed.
[0004] The process gives the part a gain in mass, because the discrete provision of the strips only in the highly stressed areas allows a consumption of the most correct reinforcing materials. Finally, unlike the method based on sheet metal inserts, the method according to the invention does not require a pre and post molding operator, thus allowing a gain in productivity. Advantageously, the strips can be deposited by directing the continuous fibers in preferred directions corresponding to the main stresses of the forces of the stress concentration zone. According to the invention, several strips can be placed one on top of the other, so as to manage the thickness of the strips without, however, removing the flexibility of the deposited strips. Preferably, strips of width less than 1.3 centimeters are used. According to a preferred embodiment, strips comprising thermoplastic resin are used. Alternatively, strips without a thermoplastic resin can be deposited at the same time as a heated thermoplastic resin is deposited.
[0005] According to the invention, a thermoplastic resin having a melting temperature substantially identical to the melting temperature of the thermoplastic material of the workpiece is used. Advantageously, the thermoplastic resin is heated and / or said zone of the workpiece is heated during the step of removing said strips, so as to promote the adhesion of the strips to the workpiece. The thermoplastic material may be based on polypropylene filled with short glass fibers, and the thermoplastic resin may also be based on polypropylene. A thermoplastic material filled with reinforcing fibers and / or talc is preferably used. Reinforcing fibers may be used alone or in combination, among the following fibers: fiberglass, carbon fiber, natural fiber. According to one embodiment, the part is a semi-structural part, such as an opening or an opening lining. If the part is a hatchback liner, the force concentration zone may be selected from any of the elements of the assembly consisting of an upper region of the hinge fixing tailgate, a lateral zone of the tail lift of jacks stresses, and a lower side area of the lock fastening tailgate. The piece can also be a side door or hood liner.
[0006] According to a particular embodiment, prior to the step of molding said piece in a mold, at least one reinforcing element comprising unidirectional continuous fiber strips is deposited locally on the walls of the mold, the strips being deposited in such a manner not continuous on the mold in at least one zone, corresponding to a stress concentration zone of the future molded part in said mold, and the step of depositing strips on the surface of said part is optional. According to another particular embodiment, prior to the molding step of said piece in a mold, is deposited locally on the walls of a preform at least one reinforcing element comprising unidirectional continuous fiber strips, the strips being deposited non-continuously on the preform in at least one zone corresponding to a stress concentration zone of the future molded part in said mold, then positioning the preform thus obtained in the mold, and the step of depositing strips on the surface of said part is optional. The invention also relates to a motor vehicle part, made by molding filled thermoplastic material and comprising at least one reinforcing element in at least one stress concentration zone. The reinforcing element is a set of discontinuous strips of unidirectional continuous fibers impregnated with thermoplastic resin reported on the surface of said piece. The fibers of the strips may be oriented in preferred directions corresponding to the main stresses of the efforts of the stress concentration zone. Finally, the part can be a semi-structural part, such as an opening or an opening lining. The invention will be better understood on reading the description which follows, made only with reference to the appended figures in which: FIG. 1 illustrates a band of unidirectional continuous fibers used in the method according to the invention. FIG. 2 illustrates a perspective view of a tailgate obtained by the method of the invention, and indicating the zones of strong stress on which bands have been arranged. The invention relates to a method for manufacturing a part (1) of a motor vehicle, such as a semi-structural part, reinforced by at least one reinforcing element. The process comprises the following steps: firstly, the part is produced by means of a molding process 25 of filled thermoplastic material; - In a second step, it reinforces the piece (1) and molded, positioning locally and on the surface of the workpiece (1) at least one reinforcing element comprising strips (2) of fibers (3) continuous unidirectional. These strips (2) are deposited non-continuously on the part (1) already molded in at least one zone (4) of concentration of forces. Zone (4) of effort concentration is understood to mean a zone with strong stresses. In such an area, therefore, there are main stressors, corresponding to directions in which the area experiences the greatest effort. For example (Fig. 2), in the case of a tailgate liner, the force concentration zone may be selected from any of the elements of the assembly consisting of an upper region of the tailgate of a hinge (4a), a lateral zone of the tailgate of recovery of jacks (4b), and a lower side area of the tailgate of the lock (4c). Preferably, the strips (2) are deposited in such a way as to orient the continuous fibers (3) that they comprise in preferred directions, corresponding to the main stresses of force experienced in the zone.
[0007] The workpiece (1) is made by molding thermoplastic material (MTP) loaded, for example by means of an injection molding process. The term thermoplastic material (MTP) charged a thermoplastic material containing mineral fillers, such as talc, and / or containing reinforcing fibers. The reinforcing fibers are chosen alone or in combination, from the following fibers: fiberglass, carbon fiber, natural fiber (such as linen, for example). Advantageously, the part is a semi-structural part, such as an opening of a motor vehicle, such as a tailgate, a side door or a hood. It can also be a lining of such an opening (interior lining tailgate, 15 side door or hood). The following description refers to the example of an interior lining tailgate, as shown in Figure 2. A strip ("tape" in English) is a set of fibers (3) continuous oriented in the same direction (figure 1). The reinforcing fibers are chosen alone or in combination from the following fibers: fiberglass, carbon fiber, natural fiber (such as linen, for example). A band (3) is defined by its format whose width is small relative to the length. Advantageously, for the draping of a motor vehicle part, strips having a width of less than 1.3 centimeters, preferably less than 1.27 cm, are used. Figure 1 illustrates a band (2) seen from above, and a section (AA) to illustrate the thickness of the band (2) and the arrangement of the fibers (3). Strips (2) of sufficiently thin thickness are used to maintain sufficient flexibility to allow draping on any shape. If necessary, it is possible to drape strips on top of one another to further strengthen the area to be reinforced.
[0008] According to a preferred embodiment, the strips (2) comprise thermoplastic resin (RTP), in which the fibers (3) are embedded (FIG. 1). According to this embodiment, and advantageously, the thermoplastic resin (RTP) is heated before applying it against the workpiece (1). This indeed makes it possible to thin the strip (2), and to facilitate its removal on all shapes of the part (1), thus favoring the draping of this strip (2). Preferably, the zone (4) of the part on which the strip (2) is to be deposited is also heated, or alternatively. In this way, the resin (RTP) of the strip 3029448 -6- and the thermoplastic material (MTP) of the part melt, thus favoring the maintenance of the strip (2) on the part (1), because the resin (RTP ) and the thermoplastic material (MTP) mix, and by compatibility and cooling, form a single structure. In this case, strips (2) are preferably used whose resin (RTP) has a melting temperature substantially identical to the melting temperature of the thermoplastic material (MTP) of the piece. For example, thermoplastic polypropylene (MTP) material filled with short glass fibers can be used to form part (1), and thermoplastic resin (RTP) also based on polypropylene can be used to form the webs. (2). As a function of the reinforcement need of the zone (4), that is to say as a function of the stress experienced by the zone (4), strips (2) of width and of variable thickness are deposited. Thus, the more the need will be important, the more one will use a thick band. Moreover, according to the method, it is possible to deposit several strips (2) on each other, so as to accentuate the thickness of the reinforcement formed by these strips (2), and thus increase the reinforcement in the zone (4). selected. According to one embodiment, strips (2) which are dry, that is to say without thermoplastic resin, are deposited on the zone (4) at the same time as a heated thermoplastic resin (RTP) is deposited. The thermoplastic resin (RTP) used may be the same as that used for the tapes impregnated with thermoplastic resin. The strips (2) are automatically deposited by means of a tool, making it possible to drape the strips on the shapes of the part (1). The tool is an automated system, for example a robot, having an arm provided with a band applicator (2), for example cylindrical, comprising a shape adapted to drape the band (2) on the zone (4). ) of the piece to be reinforced, and who can move on it. The strip (2) can be unwound continuously, and cut according to the necessary length. The tool also has a roller for applying pressure to sandwich the web (2) between the applicator and the wall of the workpiece (1). According to one embodiment, it is the applicator itself that makes it possible to apply the necessary pressure. The tool also has a means for cutting the web (2), such as blades, so that pieces of webs (2) can be deposited and not a continuous web. Finally, the tool preferably has a heating means of the band (2) when it comprises resin (RTP). This means makes it possible to thin the strip 3029448 -7- (2), and to spread it on the part (1) thanks to the applicator and to the roller. This means can be directly integrated in the applicator. Preferably this means also makes it possible, or alternatively, to heat the zone (4) of the part to be reinforced.
[0009] The method is automated and the tool moves along a path defined beforehand, making it possible to have one or more strip thicknesses (2) in one zone (4), then to continue, after cutting, by arranging strips in another zone (4) to be reinforced. The tape removal process is therefore discontinuous, in the sense that the tool does not deposit a strip continuously, but instead, deposits pieces of strips (2) at different locations in the part (1). Such a tool can drape in situ the band (2) on complex shapes of the part (1), while reducing human intervention, thereby improving productivity. It is possible to produce large quantities of reinforced parts with a reduced cycle time.
[0010] The invention also relates to a part (1) of a motor vehicle resulting from the method according to the invention. Thus, the invention relates to a part (1) made by molding filled thermoplastic material and comprising at least one reinforcing element. The reinforcing member is a set of discontinuous strips (2) of unidirectional continuous fibers (3) impregnated with thermoplastic resin (RTP), attached to the surface of the workpiece (1). Preferably, the fibers (3) of the strips are oriented along privileged directions corresponding to the "main" stresses of the efforts of the stress concentration zone.
[0011] According to exemplary embodiments, the part (1) is a semi-structural part, such as an opening leaf of a motor vehicle, such as a tailgate, a side door or a hood. It can also be a lining of such an opening (inner lining of tailgate, side door or hood).
[0012] According to a first variant embodiment, the strips (2) are deposited directly in the mold in which the workpiece (1) will be molded, then the mold is closed and the thermoplastic material (MTP) used for manufacturing the workpiece is injected. (1). Thus, the method of manufacturing a motor vehicle part (1) comprises the following steps: at least one reinforcing element comprising strips (2) of continuous fibers (3) is deposited locally on the walls of a mold. unidirectional, the strips (2) being non-continuously deposited on the mold in at least one zone, corresponding to a zone (4) of concentration of forces of the future piece (1) molded in said mold; the mold is closed, and then a filled thermoplastic material (MTP) is injected so as to manufacture the workpiece (1).
[0013] The step of depositing strips (2) on the surface of the molded piece (1) is then optional. According to a second variant embodiment, the strips (2) are deposited on a preform so as to obtain at least one preformed reinforcement. Thus, the method of manufacturing a motor vehicle part (1) comprises the following steps: at least one reinforcing element comprising strips (2) of continuous fibers (3) is deposited locally on the walls of a preform unidirectional, the strips (2) being deposited non-continuously on the preform in at least one zone, corresponding to a zone (4) of concentration of forces of the future piece (1) molded in said mold; Positioning the preform (s) thus obtained in a mold; the mold is closed, and then a filled thermoplastic material (MTP) is injected so as to manufacture the workpiece (1). The step of depositing strips (2) on the surface of the molded part is then optional.

权利要求:
Claims (19)
[0001]
REVENDICATIONS1. A method of manufacturing a part (1) of a motor vehicle, in which said piece (1) is first made by molding of thermoplastic material (MTP) loaded, characterized in that it then reinforces said piece (1) and molded by positioning locally and on the surface of said part (1) at least one reinforcing element comprising strips (2) of unidirectional continuous fibers (3), and in that the strips are non-continuously deposited ( 2) on said workpiece (1) in at least one stress concentration zone (4).
[0002]
2. Method according to claim 1, wherein the strips (2) are deposited by orienting the fibers (3) continuous in preferred directions corresponding to the main stresses of the efforts of the zone (4) effort concentration.
[0003]
3. Method according to one of the preceding claims, wherein is deposited several strips (2) on each other.
[0004]
4. Method according to one of the preceding claims, wherein using strips (2) of width less than 1.3 cm.
[0005]
5. Method according to one of the preceding claims, wherein using strips (2) comprising thermoplastic resin (RTP).
[0006]
6. Method according to one of claims 1 to 4, wherein is deposited strips (2) without a thermoplastic resin at the same time as a heated thermoplastic resin (RTP) is deposited.
[0007]
7. Method according to one of claims 5 and 6, wherein using a thermoplastic resin (RTP) having a melting temperature substantially identical to the melting point of the thermoplastic material (MTP) of the workpiece.
[0008]
8. Method according to one of claims 5 to 7, wherein the thermoplastic resin (RTP) is heated and / or said zone (4) of the room is heated during the step of removing said strips (2).
[0009]
9. Method according to one of claims 5 to 8, wherein the thermoplastic material (MTP) is based on polypropylene filled with short glass fibers, and the thermoplastic resin (RTP) is also based on polypropylene.
[0010]
10. Method according to one of the preceding claims, wherein using a thermoplastic material (MTP) filled with reinforcing fibers and / or talc.
[0011]
11. Method according to one of the preceding claims, wherein reinforcing fibers are used alone or in combination, among the following fibers: fiberglass, carbon fiber, natural fiber.
[0012]
12. Method according to one of the preceding claims, wherein the part (1) is a semi-structural part, such as an opening or an opening lining.
[0013]
13. The method of claim 12, wherein the part (1) is a tailgate liner, and the zone (4) of effort concentration is selected from any of the elements of the assembly consisting of a zone upper one of the hinge-fixing tailgate (4a), a side area of the lift-up tailgate (4b), and a lower side area of the lock-fixing tailgate (4c).
[0014]
14. The method of claim 12, wherein the part (1) is a side door or hood liner. 10
[0015]
15. Method according to one of the preceding claims, characterized in that prior to the step of molding said piece (1) in a mold, is deposited locally on the walls of the mold at least one reinforcing element comprising strips ( 2) unidirectional continuous fibers (3), the strips (2) being deposited non-continuously on the mold in at least one zone, corresponding to a zone (4) of concentration of forces of the future part (1) molded into said mold, and the step of depositing strips on the surface of said part is optional.
[0016]
16. Method according to one of the preceding claims, characterized in that prior to the step of molding said piece (1) in a mold, is deposited locally on the walls of a preform at least one reinforcing element comprising bands (2) of unidirectional continuous fibers (3), the strips (2) being deposited non-continuously on the preform in at least one zone corresponding to a zone (4) of concentration of forces of the future part (1 ) molded in said mold, and then positioning the preform thus obtained in the mold, and the step of depositing strips on the surface of said part is optional.
[0017]
17. Part (1) of a motor vehicle, made by molding thermoplastic material (MTP) loaded and comprising at least one reinforcing element in at least one zone (4) of effort concentration, characterized in that the element of Reinforcement is a set of discontinuous strips (2) of unidirectional continuous fibers (3) impregnated with thermoplastic resin (RTP) attached to the surface of said workpiece (1).
[0018]
18. Part according to claim 17, wherein the fibers (3) of the strips are oriented in preferred directions corresponding to the main stresses of the efforts of the zone (4) effort concentration.
[0019]
19. Part according to one of claims 17 and 18, wherein the part (1) is a semi-structural part, such as an opening or opening lining.

类似技术:

公开号 | 公开日 | 专利标题

WO2016087806A1|2016-06-09|Process for manufacturing a motor vehicle part made of reinforced thermoplastic material

EP1927453B1|2012-01-11|Method for manufacturing an inner lining of a tailgate using a strengthened plastic material and inner lining of a tailgate

FR3036647A1|2016-12-02|COMPOSITE MATERIAL FOR THE MANUFACTURE OF A REINFORCING ELEMENT FOR LIGHTWEIGHT CONSTRUCTION, PROCESS FOR MANUFACTURING THE SAME, AND METHOD FOR PRODUCING THE SAME

EP2922689A2|2015-09-30|Assembly of a metal insert and a sheet of composite material, method for incorporating such an insert into such a sheet and part obtained by moulding such a sheet

FR2951400A1|2011-04-22|Composite material structural part for use in e.g. floor pan of aircraft industry, has reinforcement ply provided between two one-way oriented fiber plies layers, and arranged in regular way on thickness of structural part between layers

EP3177454A1|2017-06-14|Method for manufacturing a reinforced part comprising a composite material

FR2941892A1|2010-08-13|Door for motor vehicle, has reinforcements physically linked to thermoplastic material of outer skin, and metallic inner lining made of fiber reinforced thermoplastic/thermosetting material and assembled on circumference of outer skin

WO2010049632A1|2010-05-06|Lining for a vehicle bonnet

FR3051385B1|2019-09-13|REINFORCED FIBER REINFORCED PLASTIC PREFORM AND PROCESS FOR PRODUCING CURVILIGNED PROFILES

EP0636464A1|1995-02-01|Method for bounded incorporation of a decoration in a thermoplastic substrate

WO2015104471A1|2015-07-16|Door lining for a motor vehicle, made of a composite material, comprising built-in reinforcements

WO2017216436A1|2017-12-21|Side impact reinforcement made of a composite material for a motor vehicle door

FR3046565A1|2017-07-14|

EP3636410B1|2021-08-04|Method for manufacturing an overmoulded part forming a structural part of a vehicle

FR2913910A1|2008-09-26|FIBROUS PIECE FOR COMPOSITE PIECE, COMPOSITE PIECE, AND METHOD FOR MANUFACTURING SUCH A COMPOSITE PIECE

FR2730185A1|1996-08-09|PROCESS FOR PRODUCING COMPOSITE PIECES OF PLASTIC MATERIAL COMPRISING A SURFACE COATING, MOLDS FOR ITS IMPLEMENTATION AND COMPOSITE ARTICLES THUS OBTAINED

FR2951105A1|2011-04-15|Plastic material shaping method for fabricating trim component for automobile, involves injecting thermoplastic material into mold to realize overmolding on blank, and closing mold to realize compression till reaching thickness of shell

FR2843065A1|2004-02-06|Compression molding of reinforced plastic sheet to form vehicle shock absorber mounting, first forms it to shape of mold using grip rods

EP3354438B1|2020-05-13|Method for producing a part

FR2724214A1|1996-03-08|Reinforced component esp. for vehicle bodywork trim

EP3204219A1|2017-08-16|Method for producing thermoplastic parts reinforced with continuous thermoplastic fibres

EP3277485A1|2018-02-07|Method for the production of an insert for an opening panel of a motor vehicle

FR3044579A1|2017-06-09|METHOD FOR MANUFACTURING A PREFORM FOR COMPOSITE MATERIALS COMPRISING NON-DEVELOPABLE GEOMETRIES

EP0954426A1|1999-11-10|Method for inserting decorations in a thermoplastic part

FR3015923A1|2015-07-03|COMPRESSION MOLDING METHOD WITH STOP ASSEMBLY

同族专利:

公开号 | 公开日

FR3029448B1|2018-04-20|

MA41106A|2017-10-10|

US20170361781A1|2017-12-21|

WO2016087806A1|2016-06-09|

JP2018500204A|2018-01-11|

CN107206707A|2017-09-26|

EP3227093A1|2017-10-11|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

DE102012018801A1|2012-09-22|2013-03-21|Daimler Ag|Covering component i.e. covering carrier, for e.g. door of passenger car, has plastic paneling part comprising thermoplastic covering layer and fiber reinforced plastic layers with unidirectionally aligned fibers|

US20140110964A1|2012-10-24|2014-04-24|Sabic Innovative Plastics Ip B.V.|Vehicle side door structure and method of making and using the same|

DE102013104609A1|2013-05-06|2014-11-06|Deutsches Zentrum für Luft- und Raumfahrt e.V.|Nestingablage|

US2998838A|1959-07-23|1961-09-05|Jr Berry Lorenz Byrd|Pipe bending rack|

US2998863A|1959-08-03|1961-09-05|White Metal Rolling & Stamping|Fire escape ladders|

JPH0443781B2|1986-12-31|1992-07-17|Tokyo Shiito Kk|

JP2516809Y2|1992-06-01|1996-11-13|河西工業株式会社|Core material structure for automobile interior parts|

FR2789644B1|1999-02-12|2001-04-13|Plastic Omnium Cie|OPENING REAR OF MOTOR VEHICLE, MOUNT PIVOTING AROUND A HORIZONTAL AXIS IN THE VICINITY OF ITS LOWER EDGE|

JP4430787B2|2000-05-31|2010-03-10|テイ・エステック株式会社|Manufacturing method for vehicle lining|

JP2002113794A|2000-10-12|2002-04-16|Nittobo Frp Laboratory Co Ltd|Monolithic system bath with acrylic resin shell and manufacturing method therefor|

ES2320944A1|2005-12-02|2009-05-29|Fpk, S.A.|Composite part reinforced with a fibre part by means of diverse winding processes or direct application processes of unidirectional fibre filaments, and its methods of manufacture|

FR2908067B1|2006-11-03|2010-08-20|Plastic Omnium Cie|METHOD FOR MANUFACTURING AN INNER LINING OF A REINFORCED PLASTIC HINGE|

DE102009006130B4|2009-01-26|2011-09-15|Daimler Ag|Composite component with cover layer|

JP5660563B2|2010-03-31|2015-01-28|広島県|Method for laminating fiber reinforced thermoplastic resin prepreg|

JP2012071595A|2010-08-31|2012-04-12|Toray Ind Inc|Method of manufacturing composite molded object|

DE102010062713A1|2010-12-09|2012-06-14|Robert Bosch Gmbh|Sodium-chalcogen cell|

FR2998209B1|2012-11-19|2015-05-22|Hexcel Reinforcements|METHOD FOR DEPOSITING AN INTERMEDIATE MATERIAL FOR ENSURING COHESION THEREOF AND METHOD FOR ESTABLISHING A STACK FOR THE MANUFACTURE OF COMPOSITE PARTS|

FR2998838B1|2012-12-04|2017-05-26|Faurecia Sieges Dautomobile|SEAT FRAME AND METHOD FOR MANUFACTURING THE SAME|

FR3024389B1|2014-08-04|2017-03-10|Dedienne Multiplasturgy Group|PROCESS FOR MANUFACTURING A REINFORCED PIECE COMPRISING A COMPOSITE MATERIAL|FR3066140A1|2017-05-09|2018-11-16|Valeo Systemes Thermiques|COMPONENT FOR MOTOR VEHICLE|

DE102018204732A1|2018-03-28|2019-10-02|Ford Global Technologies, Llc|Tailgate for a motor vehicle and method for producing such a tailgate|

DE102018204733B4|2018-03-28|2020-12-17|Ford Global Technologies, Llc|Tailgate for a motor vehicle and method for producing such a tailgate|

DE102018109212A1|2018-04-18|2019-10-24|Deutsches Zentrum für Luft- und Raumfahrt e.V.|Method and installation for producing a fiber preform and method for producing a fiber composite component|

JP6741832B1|2019-08-09|2020-08-19|住友化学株式会社|Injection-molded article and manufacturing method thereof|

法律状态:
2015-12-23| PLFP| Fee payment|Year of fee payment: 2 |

2016-06-10| PLSC| Search report ready|Effective date: 20160610 |

2016-12-26| PLFP| Fee payment|Year of fee payment: 3 |

2017-12-19| PLFP| Fee payment|Year of fee payment: 4 |

2018-12-20| PLFP| Fee payment|Year of fee payment: 5 |

2020-10-16| ST| Notification of lapse|Effective date: 20200910 |

优先权:

申请号 | 申请日 | 专利标题

FR1461961A|FR3029448B1|2014-12-05|2014-12-05|METHOD FOR MANUFACTURING A MOTOR VEHICLE PART IN REINFORCED THERMOPLASTIC MATERIAL|FR1461961A| FR3029448B1|2014-12-05|2014-12-05|METHOD FOR MANUFACTURING A MOTOR VEHICLE PART IN REINFORCED THERMOPLASTIC MATERIAL|

MA041106A| MA41106A|2014-12-05|2015-12-06|METHOD OF MANUFACTURING A MOTOR VEHICLE PART FROM REINFORCED THERMOPLASTIC MATERIAL|

JP2017529686A| JP2018500204A|2014-12-05|2015-12-07|Method for manufacturing power vehicle parts made of reinforced thermoplastic material|

CN201580072213.8A| CN107206707A|2014-12-05|2015-12-07|The manufacture method for the motor vehicle component that enhancing thermoplastic is made|

PCT/FR2015/053347| WO2016087806A1|2014-12-05|2015-12-07|Process for manufacturing a motor vehicle part made of reinforced thermoplastic material|

EP15817482.1A| EP3227093A1|2014-12-05|2015-12-07|Process for manufacturing a motor vehicle part made of reinforced thermoplastic material|

US15/532,779| US20170361781A1|2014-12-05|2015-12-07|Process for manufacturing a motor vehicle part|

[返回顶部]