METHOD FOR TEXTURING A POLYAMIDE

Abstract

A method for preparing an object including at least one film including at least one layer including a composition including at least one semi-crystalline polyamide having a melt enthalpy of between 25 J/g and 75 J/g, the film having on all or part of at least one of its surfaces the texture of a texturing element, wherein the method includes: a. providing a mold set to a temperature less than or equal to 120° C.; b. applying to the wall of the mold, at least one texturing element, and having at least partially a textured surface, the textured surface being on the face opposite that facing the mold; c. applying to the textured surface of the texturing element, at least one film comprising at least one layer, the thickness of the layer being at least 10 μm; d. applying heat and pressure to the film.

Claims

1. A method for preparing an object comprising at least one film comprising at least one layer (1) comprising a composition comprising at least one semi-crystalline polyamide (Psc) having a melt enthalpy of between 25 J/g and 75 J/g during the first DSC heating according to ISO 11357-3:2013 at 40° C./min, said film having on all or part of at least one of its surfaces the texture of a texturing element, wherein the method comprises the following steps: a. providing a mold set to a temperature less than or equal to 120° C., b. applying to the wall of the mold, at least one texturing element having at least partially a textured surface, said textured surface being on the face opposite that facing the mold, c. applying to the textured surface of the texturing element, at least one film comprising at least one layer (1) comprising a composition comprising at least one semi-crystalline polyamide (Psc), said layer (1) being intended for being in contact with the textured surface of the texturing element, the thickness of said layer (1) being at least 10 μm, d. applying at least one heating means to said film of step (c), in order to arrive at a temperature on the face of the film facing the texturing agent, between Tg and the melting temperature of the composition minus 15° C., the Tm being measured according to ISO 11357-3:2013, and applying a pressure means to said film in order to bring it into contact with the texturing element, with a pressure between 1.5 and 2000 bars, for a time t between 0.1 s and 5 h, e. removing from the mold and obtaining the object comprising said film comprising the composition comprising at least semi-crystalline polyamide and having on all or part of at least one of its surfaces the texture of said texturing element.

2. The method according to claim 1, wherein said temperature of said film comprising the composition, is between Tg and Tm−15° C., over a thickness of at least 10 μm.

3. The method according to claim 1, wherein said heating means and pressure means consists of injecting a molten polymer at a temperature Tinj between 150° C. and 350° C. onto the face opposite that intended for being in contact with the texturing element of said film of step (c), for a time t between 0.1 s and 15 min, and the pressure being between 1.5 and 2000 bars.

4. The method according to claim 3, wherein said molten polymer adheres to said layer (1).

5. The method according to claim 4, wherein said film is a single-layer film consists of a layer (1) comprising a composition comprising at least one semi-crystalline polyamide (Psc), said layer (1) having a thickness of at least 10 μm.

6. The method according to claim 4, wherein said molten polymer is a polyamide.

7. The method according to claim 3, wherein said molten polymer lacks adhesion to said semi-crystalline polyamide (Psc).

8. The method according to claim 7, wherein said film is a multilayer film comprising at least one layer (1) comprising a composition comprising at least one semi-crystalline polyamide (Psc), said layer (1) having a thickness between 20 μm and 1000 μm.

9. The method according to claim 8, wherein said multilayer film comprises at least two layers, a layer (1) and a layer (2), the two layers (1) and (2) adhering to one another, and the layer in contact with the texturing element being the layer (1) comprising the composition comprising said semi-crystalline polyamide (Psc).

10. The method according to claim 9, wherein said molten polymer adheres to the layer (2), said layer (2) being located on the face opposite the layer (1) which is in contact with the texturing element.

11. The method according to claim 8, wherein said multilayer film comprises at least two layers (1) and (2), the layer in contact with the texturing element being the layer (1) of said semi-crystalline polyamide (Psc), the two layers (1) and (2) lacking adhesion to one another and comprising at least one third layer (3) therebetween allowing the adhesion between the layers (1) and (2).

12. The method according to claim 11, wherein said molten polymer adheres to the layer (2), said layer (2) being located on the face opposite the layer (3) which is in contact with the layer (1) in contact with the texturing element.

13. The method according to claim 1, wherein the layer (1) intended for being in contact with said texturing element, during step d, is at a temperature between the Tg and the Tm−15° C. of the composition of the layer (1), over a thickness between 5 and 50% of said film, on the face facing the texturing agent, the Tg being determined according to ISO 11357-2:2013 and the Tm according to ISO 11357-3:2013.

14. The method according to claim 1, wherein the composition of the layer (1) has a transparency such that the transmittance at 560 nm on a plate with a thickness of 1 mm is greater than or equal to 80% determined according to standard ISO 13468-2:2006.

15. The method according to claim 1, wherein the composition of the layer (1) and optionally the semi-crystalline polyamide (Psc) has/have the melt enthalpy is between 30 and 50 J/g (first DSC heating according to ISO 11357-3:2013 at 40° C./min).

16. The method according to claim 1, wherein the composition of the layer (1) and optionally the semi-crystalline polyamide (Psc) is such that its glass-transition temperature is between 30 and 120° C., and that its melting temperature is between 150° C. and 330° C., determined according to ISO 11357-3:2013.

17. The method according to claim 1, wherein the layer (1) of said single-layer or multilayer film consists of a transparent composition comprising by weight, the total being 100%: 5 to 40% of an amorphous polyamide (B) which results essentially from the condensation: either of at least one diamine selected from the cycloaliphatic diamines and the aliphatic diamines and of at least one diacid selected from the cycloaliphatic diamines and the aliphatic diacids, at least one of these diamine or diacid units being cycloaliphatic, or of a cycloaliphatic alpha omega amino carboxylic acid, or of a combination of these two possibilities, and optionally of at least one monomer selected from the alpha omega amino carboxylic acids or the optional matching lactams, the aliphatic diacids and the aliphatic diamines, 0 to 40% of a flexible polyamide (C) selected from the polyamide and polyether block copolymers and copolyamides, 0 to 20% of a compatibilizing agent (D) of (Psc) and (B), 0 to 40% of a flexible modifier (MS), with the condition that (C)+(D)+(MS) is between 0 and 50%, the remainder to 100% of a semi-crystalline polyamide (Psc), the polyamide (Psc) being the majority component with respect to the sum of (Psc)+(B)+(C)+(D).

18. The method according to claim 1, wherein the layer of said single-layer or multilayer film consists of a transparent composition comprising by weight, the total being 100%: 5 to 40% of an amorphous polyamide (B) which results essentially from the condensation of at least one diamine, optionally cycloaliphatic, of at least one aromatic diacid and optionally of at least one monomer selected from: the alpha omega amino carboxylic acids, the aliphatic diacids, the aliphatic diamines, 0 to 40% of a flexible polyamide (C) selected from the polyamide and polyether block copolymers and copolyamides, 0 to 20% of a compatibilizing agent (D) of (Psc) and (B), (C)+(D) is comprised between 0 and 50%, with the condition that (B)+(C)+(D) is not less than 30%, the remainder to 100% of a semi-crystalline polyamide (Psc), the polyamide (Psc) being the majority component with respect to the sum of (Psc)+(B)+(C)+(D).

19. The method according to claim 17, wherein the polyamide (Psc) is selected from PA11, PA12, PA1012, PA1010, PA612 and PA610.

20. The method according to claim 1, wherein a second texturing element, different from the first is present between the first texturing element and the mold, said second texturing element at least partially covering said first texturing element.

21. The method according to claim 1, wherein, optionally, the object obtained in step e, as defined in claim 1, coats, on its face comprising the molten polymer, a structural substrate.

22. An object obtained by the method according to claim 1.

23. A part comprising at least one object as defined in claim 22.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0174] FIG. 1 describes a general diagram of the method of the invention with the mold (M), the texturing agent (T), the film (F), the pressure means (H) and the temperatures (TI) and (TT), (TI) being the temperature on the surface of the film on the side opposite that which is to be textured, (TT) being defined beforehand.

EXAMPLES

Example 1: Representative General Method with a Single-Layer Film

Example 1-a: Fabric Texturing Agent

[0175] A 350-ton injection press is used, the temperatures of the injection screw being set to 250° C. in the last heating zone of the screw. A polyamide PA12 with inherent viscosity 1.0, measured in m-cresol according to standard ISO 307:2007 but using m-cresol instead of sulfuric acid, a temperature of 20° C. and a concentration of 0.5% by weight, is injected into a mold (M) corresponding to an interior panel of a rear car door.

[0176] Step (a):

[0177] The mold is first set to 60° C.

[0178] Like all injection molds, this mold consists of 2 parts:

[0179] The stationary part, the part closest to the injection screw, which is also the part in which the injection point(s) are located,

[0180] The mobile part of the mold, the part which allows the mold to be opened, this part is the furthest from the injection screw.

[0181] This part is typically that which makes it possible to mold the front face of the part (which will be visible: interior panel of a car). This part of the mod is that which concerns the mold (M).

[0182] Step (b):

[0183] Instead of immediately injecting the polymer into the mold as during a conventional injection cycle, a texturing agent (T) which is a piece of fabric with a planar shape and has a thickness of around 0.5 mm is placed at the bottom of the mold (M) (thus in its mobile part). The fabric is cut so that it can upholster the entire surface of the mobile part of the mold (M).

[0184] Step (c):

[0185] A single-layer film (or sheet) (F) comprising a composition CPO with a thickness of 150 μm, this composition consisting of: [0186] 65% by weight of PA12 Mw 45000 to 55000, [0187] 25% by weight of a CoPA IPD.10/12 (weight ratio: 80/20), [0188] 10% of PA 11 with Mw 45000 to 55000 and containing 0.3% of phosphoric acid, is placed in the mold and above the fabric (texturing agent T),

[0189] The film has been previously obtained by implementation on a conventional film-calendering line consisting of an extruder heated to 240° C., the molten polymer at the output of the extruder being shaped into a film by the action of calendering rollers heated to 40° C.

[0190] The film is also cut so that it projects by several mm from the joint plane so that it can, later in the injection process, at least cover the entire surface of the mold.

[0191] Step (d):

[0192] The mold is then closed and the PA12 with inherent viscosity 1.0 is injected into the mold with a flow rate of 385 cm.sup.3/s and the injection screw is set to a ceiling temperature of 250° C. Once the mold is filled, the pressure is applied and maintained for a time of 10 s, this pressure being 250 bars. This pressure presses the film (F) onto the texturing agent (T), the two being pressed against the bottom of the mold (M). The film (F) and the texturing agent (T) match the shape of the mold and the film (F) matches and reproduces the texture of the texturing agent (T).

[0193] Then the mold is left to cool, with a cooling time of 40 s, which is the end of step (d).

[0194] Step (e):

[0195] After cooling, the mold is opened.

[0196] The object “interior panel of rear car door”, which is retrieved consists of PA12 (now in solid state with a thickness of 1.5 mm) covered with the film (F). The film (F) is rigidly connected to the part made of PA12 since the adhesion between them is good.

[0197] The texturing agent (T) does not adhere to the film (F), it falls off by itself or can be easily removed by hand. The texturing agent T has left its impression on the visible side (outer side) of the film F, and in this way it reproduces its aspect and most particularly its feel, which grants the object “interior panel of rear car door”, an aspect which is no longer that of a typical plastic object, but rather that of a high-quality object that appears to be upholstered or covered with an actual fabric.

Example 1-b

[0198] One variant of example 1 consists of the prior visual decoration of the film (F), (after its production by calendering and before placing it in the mold of the injection press), by a sublimation or screen-printing technique consisting of transferring an image, a visual decoration, onto the face of the film (F) which is preferably the face opposite the face intended for being textured. The image may be one that corresponds to a photograph of the fabric that constitutes the texturing agent (T).

1-b-1

[0199] The texturing agent may be for example a colored printed fabric. Thus not only the feel of the texturing agent but also its visual aspect will have been reproduced on the object, because the film (F) was decorated (visually) beforehand with an image of this fabric. Thus the visual and tactile aspect of the fabric texturing agent will have been reproduced. Thus, a more complete haptic sensation will be obtained. The advantage with respect to an actual fabric is the endurance of the film (F), which is physically and chemically much greater than that of a fabric (textile).

1-b-2

[0200] There may also be visual wood decoration on the film and for this purpose a texturing agent which is a thin sheet of wood is used.

[0201] The result is an object that resembles wood in visual and tactile terms.

Example 1-c

[0202] For even greater endurance, we can consider the example of a film of 600 μm instead of 150 μm. This thickness can make it more difficult to match the shape of the mold. In order to make it better match the shape of the mold the thick film can be previously shaped so as to coarsely pre-match the shape of the mold. For this purpose, after having placed and attached the texturing agent (T) and the film (F), that is after step (c) and before closing the mold in order to inject the PA12, a step that consists of providing an infrared heating strip for heating the film (F) above its Tg, that is 100° C. (measured by an infrared thermometer) during at least 3 s is carried out and then using a vacuum pump a negative pressure is applied to the bottom of the mold so as to suck the softened film (F) onto the bottom of the mold, at least coarsely or partially.

[0203] The process then resumes its course, the mold is closed, the molten PA12 is injected and it can finish pushing the film onto the bottom of the mold so that it perfectly matches it, as already described, in the process, it will match the texturing agent (T) and reproduce its texture.

Example 1-d

[0204] Texturing agent: blotting paper.

[0205] Example 1-a is reproduced using a blotting paper texturing agent with a thickness of 0.3 mm.

Example 1-e

[0206] Texturing agent: Plant such as a tree leaf

[0207] Example 1-a is reproduced using a tree leaf texturing agent with a thickness of around 6 mm in the thickest parts.

Example 1-f

[0208] Two texturing agents: Plant such as a tree leaf on blotting paper

[0209] Example 1-a is reproduced using a tree leaf texturing agent of example 1e with a second blotting paper texturing agent.

[0210] The tree leaf (texturing agent no. 1) is located above the blotting paper (texturing agent no. 2), the tree leaf being placed on the face of the film. Thus the reproduction of the tree leaf on a blotting paper background is obtained.

Example 2: Representative General Method with Multilayer Film Comprising a Layer (1) and a Layer (2)

Example 2-a: Adhering Layer (1) and Layer (2)

[0211] Example 1-a is reproduced with the difference that in step (c), a multilayer film (F) comprising a layer (1) comprising a composition CPO as defined in example 1, but with a thickness of 50 μm and a layer (2) consisting of pure polyimide PA12 and with a thickness of 100 μm is placed in the mold and above the fabric (texturing agent T), the layer (1) being in contact with the texturing agent T.

[0212] Steps (d) and (e) are identical to that of example 1-a.

Example 2-a: Non-Adhering Layer (1) and Layer (2)

[0213] Example 1-a is reproduced with the difference that in step (c), a multilayer film (F) comprising a layer (1) comprising a composition CPO as defined in example 1, but with a thickness of 50 μm and a layer of binder consisting of a grafted PE with 0.6% maleic anhydride (density 0.96 g/cm.sup.3, an MFI, Melt Flow Index, measured according to standard ASTM 1238, at 190° C. under 2.16 kg of 2) and with a thickness of 100 μm is placed in the mold and above the fabric (texturing agent T), the layer (1) being in contact with the texturing agent T.

[0214] In step (d), a HDPE with a density of 0.96, with MR measured according to standard ASTM 1238, at 190° C. under 2.16 kg of 2, is injected in molten state under the same conditions as the PA12 of example 1a (step d).

Example 3: Compression Mold

[0215] A compression mold with two heatable planar plates is used. The temperature of the plates is set to 150° C. The texturing agent and the film of example 1a are included. The texturing agent is placed on the film and both are placed between the two plates which are then placed under a pressure of 50 bars during 1 minute. When the film is cold enough that it can be handled, the texturing agent is removed without any effort. The impression of the fabric on the film is then found as well as a feel that appears similar to that of the texturing agent.

Counter Example 1: Visual and Tactile Structure of the Fabric

[0216] A skilled person has attempted to reproduce the visual and tactile structure of the fabric of page 24 of WO 06/008358,

[0217] The only information provided is the temperature (110° C.), the pressure (20 bars) and the time (5 min).

[0218] The thickness of the texturing agent is not given.

[0219] The composition of the polyamide is not given.

[0220] The thickness of the film is not given,

[0221] A skilled person is not able using the data given for the various parameters of the method described in this example to obtain an object as claimed in WO 06/008358.

Counter Example 2

[0222] Example 3 of the invention is reproduced except that the temperature of the plates is set to 30° C. The impression of the fabric then cannot be reproduced and the feel of the film is almost unchanged.

Counter Example 3

[0223] Example 3 of the invention is reproduced except that the temperature of the plates is set to 250° C. The fabric bonds to the film and it is not possible to correctly detach it from the film.

Counter Example 4

[0224] Example 1a of the invention is reproduced except that the mold is set to 20° C. (step a) and that in step d, the pressure is only maintained during 2 seconds.

[0225] The result is then negative, the impression of the fabric thus cannot be reproduced and the feel of the film is almost unchanged.