DE2818385B2 - Method for producing a plate-shaped molded body made of polyvinylidene fluoride with a fiber fleece - Google Patents

Description

required dished ends is still possible.

The use of the fiber fleece made of thermoplastic polyester also has the effect that the large coefficient of thermal expansion of PVDF, which is in the range of 15 to 10 X 10 " ⁵ per degree Celsius! has a different coefficient of thermal expansion (e.g. steel), cannot have a disadvantageous effect, because the stretchable polyester fiber fleece absorbs the different expansions.

Linear polyesters based on polyethylene terephthalate are particularly suitable as thermoplastic polyesters in question. The nonwovens are produced, for example, by needling polyester staple fibers. Such nonwovens have high strength and good elongation at the same time. You own one largely structure-free surface.

The following is a description of an exemplary embodiment of the invention with reference to the drawing. It shows

Fig. 1 shows schematically the lamination of a PVDF web with a textile fabric and

2 shows the basic structure of the composite body.

On a surface of a freshly extruded from the extruder 1 polyvinylidene fluoride web 2, dit is still in its plastic state at both times 190 ° C is, the polyester fleece coming from the supply roll 4 immediately after leaving the extruder 3, a pair of pressure rollers 5 applied continuously. The polyester fleece 3 is pressed here so into the surface of the web 2 that a homogeneous connection is created in the heat and it also is mechanically firmly anchored in it after cooling. The composite body 6 is then subjected to further processing, such as packaging, etc., supplied.

In Fig. 2, the composite plate 6 is schematically consisting of the PVDF plate 2 and the polyester fleece 3, which are homogeneously connected to one another, shown. This composite plate 6 can for example Serve as a semi-finished product for container construction and can, for example, with fiberglass-reinforced unsaturated Polyester resins are reinforced on the polyester fleece side 3 building up.

The homogeneous bond that is achieved shows a higher interlaminar tensile strength, as measured DIN 53397, as a composite body made of PVDF with a glass fabric. This is shown below on a Example occupied.

As test specimen 1, two PVDF composite panels produced according to the invention with a PcIyect nonwoven with a weight per unit area of 150 g / m2 and 30 mm in diameter were welded with their PVDF side to a PVDF test specimen and then bonded to their polyester nonwoven sides with an adhesion promoter. The test specimen 2 was produced analogously using two PVDF plates with a diameter of 30 mm, also laminated with a glass fabric of 300 g / m ^2. For specimens 1 and 2, unsaturated polyester resin was used as an adhesion promoter. The resin formulation for the adhesion promoter was made up of:
100 parts by weight of unsaturated polyester resin

2 parts by weight of benzoyl peroxide powder

1 part by weight amine accelerator 10%
(Dimethylaniline solution)

The contact pressure when gluing the test specimens was about 0.01 N / mm ² . The subsequent tensile test according to DIN 53 397 was carried out with a feed rate of 5.5 m / min.

The table below shows the values achieved for the forehead peel strength (interlaminar tensile strength) applied depending on the test temperature:

Tabel

Check Test specimen 1 Specimen 2 temperature PVDF poly PVDF glass ⁰ C ester fleece tissue N / mm ² N / mm ² + 23 7.0 4.0 + 80 4.0 2.7 + 120 2.1 1.3

The tests show that the forehead peel strength of those produced according to the invention Composite body is almost twice as high as in the case of the composite body produced according to the prior art with glass fabric. The fracture surface of the test specimen lies with the PVDF polyester fleece test specimen inside the polyester fleece, with the PVDF glass fabric body in the glass fabric / PVDF level. In addition, the composite body produced according to the invention has over the entire Bond surface has a uniform forehead pull-off strength.

1 sheet of drawings

Claims (1)

Claim: Method for producing a plate-shaped molded body made of polyvinylidene fluoride with a without an intermediate layer with it firmly bonded surface layer made of a deformable Non-woven fabric on at least one of its surfaces, in which the non-woven fabric on the Polyvinylidene fluoride molded bodies in the plastic or approximately plastic state applying pressure and then cooling the composite body, characterized in that a thermoplastic Polyester is chosen as the material of the fibers of the fiber fleece and that the application of the fiber fleece at a temperature of the polyvinylidene fluoride molded body which does not exceed about 200 ° C is made. The invention relates to a method for producing a plate-shaped molded body from polyvinylidene fluoride with a surface layer made of a deformable nonwoven fabric on at least one of its surfaces, in which the nonwoven fabric on the im plastic or approximately plastic state located polyvinylidene fluoride molded body under Applying pressure and then cooling the composite body. Polyvinylidene fluoride, hereinafter referred to as PVDF for short, is difficult to combine with other materials such as for example metal, connect. It is known (DE-OS 2655597 and DE-OS 2713754), the surface of PVDF moldings to be provided with a fiber fabric or fleece in order to have this fiber intermediate layer gluing onto a metallic surface or bandaging, for example made possible by polyester and fiberglass. For the fiber fabric or fleece come after this State of the art all fibers (natural fibers and artificial fibers), but especially glass or Asbestos fibers in question. Fibers made from thermoplastic polyesters are not mentioned. The pamphlets are methods of the type described at the outset for producing those coated with the fiber layer PVDF molding can be removed as known. A fabric or a mat made of glass fibers is used calendered simultaneously with a PVDF film leaving an extruder. The more or less long glass fibers enter the PVDF and are held in the plastic compound. Such a thing The method is designed according to one publication in such a way that one between the surface the fiber layer and the surface of the PVDF a special solution of a polymer or copolymer brings up. In the method according to the other publication, PVDF dissolved in a solvent is used used as an adhesive at elevated temperature. The disadvantage of this method is that either or there is no adequate bond between the fiber material and the PVDF molded body special measures are required to obtain a sufficient bond. Furthermore, the The disadvantage of using glass fibers is that they have to be pressed through onto the other side of a PVDF film tend, so that practically only foils a thickness of three or more millimeters perfect composites > surrender. When connecting a molded polyvinylidene fluoride body with a glass fabric, the embedment depth also has a significant influence on the quality of the connection. The optimal embedment depth can only be achieved if the pressure is applied in the Within the framework of the establishment of the connection, a predetermined small pressure range is maintained. This requires special care when performing the known methods. It is also known for the surface treatment of glass fiber reinforced polyester laminates synthetic nonwovens made of z. B. to use polyester fibers. It is also known that loosely bound (needled) nonwovens take part in any shaping due to distortion and that synthetic fiber nonwovens coated with polyethylene or polypropylene films enable good adhesion to other materials from the nonwoven side ("Kunststoffe", Volume 52, 1962, p. 742 / 747). Thermoplastic polyesters are also known. This includes polyethylene terephthalate (PETP). This Material is also known as fiber raw material. The invention is based on the object of designing a method of the type mentioned at the outset in such a way that that there is an adhesive bond without additional adhesion promoters, adhesives or the like between the fiber material and the PVDF molding results and that with the use of Glass fibers or the like adjust fibers that do not soften at the temperatures that occur Disadvantages - such as pushing through a film - do not occur. To solve this problem it is provided according to the invention, that a thermoplastic polyester is chosen as the material of the fibers of the nonwoven fabric and that the application of the nonwoven fabric at a temperature not exceeding about 200 ° C. Polyvinylidene fluoride molding is made. Surprisingly, the choice of thermoplastic polyester as the material of the fibers and thereby, that the temperature at which the fiber fleece is applied does not exceed about 200 ° C, that the fiber fleece adheres better to the PVDF body than a corresponding glass fiber material. Between the materials create an almost homogeneous connection. Even with PVDF moldings one Thickness less than 2 mm, no fibers pass through the PVDF, and neither does a fiber or The fleece structure does not appear on the surface of the PVDF molded body facing away from the polyester fiber fleece in appearance. The method according to the invention thus creates the prerequisite for PVDF panels or films of small thickness can be used and thus a material saving when using the PVDF is achievable. Compliance with certain small pressure areas in the pressure wall during manufacture no special attention needs to be paid. Due to the thermoplastic properties of the polyester fiber fleece, the composite can also be used hot deform to a limited extent so that ζ. B. the manufacture of chemical apparatus