DD151053A1 - METHOD FOR THE CONTINUOUS PRODUCTION OF STAINED THERMOPLASTIC LUBRICANTS - Google Patents

Abstract

Process for the continuous production of reinforced thermoplastic laminates, which can preferably be used as electrical insulating material or as covering films. The solution according to the invention should make it possible to provide an economical process for the production of sheet-like and optionally profiled laminate materials. The invention is based on the object, without use Additional adhesive or Impraegnierung in the plastic melt to achieve a good Durchimpraegnierung of Traegermaterials. This is achieved by jointly feeding thermoplastic and carrier sheets into a calender heated above the melting point of the thermoplastic.

Description

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Title of the invention

Process for the continuous production of reinforced thermoplastic laminates

Field of application of the invention

The invention relates to a process for the production of reinforced thermoplastic laminates, wherein advantageously the good electrical, thermoplastic, physical and chemical properties of the thermoplastic polymers are combined in particular with the mechanical and thermal properties of the support materials. Thus, e.g. Laminates of polyamide film with glass fiber fabric or fleece are used as slot lining material for electric motor.

Laminates based on polyethylene, polypropylene or polyamide with glass fiber fabric or fleece are particularly suitable as weatherproof coverings and in the form of very thin laminates as stable greenhouse covers. All possible laminates can be used as electrical insulation materials if the thermal, mechanical and electrical properties caused by the respective combination of materials are sufficient.

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Characteristic of the known technical solutions

It is known that laminates are provided with thermosetting resin systems, e.g. Polyester or epoxy resins, can be produced continuously. In these methods, the carrier webs are impregnated in a previous operation with the appropriate resin solutions, the respective solvent removed in drying channels and the same side pre-cured the remaining resins. This consumes large amounts of solvent and energy. The prepregs obtained in this way are continuously processed and hardened either via calenders, between steel strips or intermittently between press plates

 These methods have a few principal parts:

curable resins require a relatively long curing time; therefore only low speeds are achievable

- When curing by Metallendlosbändern only a low, for phenolic resin papers insufficient pressure is applicable

- The impregnation is carried out with highly solvent-containing resin solutions

- The technical and economic effort and the harmful influence are incomparably higher than in the inventive method.

The advantages of the laminates made of hardenable systems are mainly in the higher thermal and mechanical properties.

The previously known continuous processes for the processing of thermoplastics for large-scale structures relate only to one-sided coatings and laminations of carrier webs with thermoplastic film, wherein in the R ^ gel nor the application of an adhesive interlayer is required. The complete Durchimprägnierung of running carrier webs failed so far

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the relatively poor solubility of thermoplastics. The Durchimprägnierung from the melt is technically problematic because u.a. while the thermoplastic must remain in the molten state for a long time and thus is very exposed to the thermal oxidation, which leads to the loss of excellent properties.

Object of the invention

The solution according to the invention should make it possible to provide an economical and versatile method for the production of tabular and optionally profiled laminates based on carrier webs impregnated with thermoplastic polymers.

Explanation of the essence of the invention

The invention has for its object to avoid the use of additional adhesive or the impregnation in the thermoplastic melt in the production of the reinforced thermoplastic laminate and thereby to achieve a complete Durchimprägnierung of the support material. The features of the invention are that thermoplastic films are supplied together with the carrier webs in a layered structure over a Vorwärmstrecke a calender consisting of several rolls, wherein at least two folds are heated above the melting point of the thermoplastic used, that the layered structure of the webs in the Order thermoplastic film - carrier web ... carrier web - thermoplastic film takes place and that the thermoplastic film webs narrower than

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the carrier webs are.

The invention will be explained in more detail below with reference to an exemplary embodiment:

embodiment

From stock rolls, which can be arbitrarily changed in number, the carrier webs and the thermoplastic films are layered over Führungsrolleη in such a way that the Thermoplastfolieη are respectively outside · As a carrier material can in principle all natural, synthetic and mineral fiber fabrics, nonwovens, papers and other flat-shaped structures are used.

As thermoplastic films are also all conventional films and sheets, preferably polyamide, polyethylene and polypropylene in question. However, the compatibility (chemical and physical) of the respective thermoplastic with the carrier material should be considered.

An optimum ratio of thermoplastic carrier material can be set by means of film or carrier material mass, it also being possible to optionally introduce several layers of one or the other starting material. Advantageously, porous papers, glass fiber webs and glass silk fabric can be used.

The layered webs pass through a heating section in which the thermoplastic films are heated to near their melting point. In the calender, the actual melting of the film and the impregnation of the carrier webs with the thermoplastic takes place. This process is particularly favored by the meandering guidance of the webs around several calender rolls with the largest possible angles of wrap.

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At least the middle rollers of the calender must be heated above the melting point of the thermoplastic. To avoid fouling of calender rolls with molten polymers, two seamless demoulding belts, e.g. With polytetrafluoroethylene coated glass silk, so passed through the calender that the inventively layered web runs between these Entformungsbahnen through the calender. Side fouling can be avoided by using the substrate webs as well as the demoulding webs wider than the thermoplastic film webs.

The calender rolls need only run on each other with a low contact pressure. It should be adjusted so that the molten thermoplastic does not escape on the sides and only builds up as little as possible a jam of molten polymers at the calender intake. A small congestion is required, because thereby the complete Durchimprägnierung the carrier webs is achieved. A tearing of the film webs is avoided by the simultaneous entrainment of the thermally stable carrier webs. After leaving the calender, the desired composite has formed.

For stabilization, the web passes through a cooling section wherein the moving web is cooled below the melting point of the polymer. To smooth and densify the material, the web then passes through a pair of pressure rollers. These rollers should work against each other with increased pressure. The pressure rollers and possibly the calender rollers can be designed profiled, Äo that, for example, corrugated sheet material is obtained. It is also possible to apply further printing and embossing rollers, which may be heated, whereby a desired surface structure can be achieved. In a subsequent cooling section, the moving web is cooled to approximately room temperature and thereby obtains the mechanical properties corresponding to the selected thermoplastic-carrier material combination.

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A downstream guillotine or rotary cross cutter divides the continuous web into the desired sheet format. The laminates produced according to the invention can be cut and punched because of their character; they are easily and firmly connected by welding.

Application examples:

1. Multiple webs of glass silk fabric with a basis weight

of 163 g / m are used, each with two in between and an outgoing Polyamidfolienbahn based on

ο Polycaprolactam having a basis weight of 70 g / m and a melting point of about 212 ⁰ C according to the invention processed. The calender is heated to 225 - 230 ⁰ C.

The result is a reinforced with fiberglass fabric Polyamidschichtpreßstoff.

2 × Multiple webs Glass fiber fleece made of Ε-glass with a basis weight of 120 g / m are processed according to the invention with two outer and intermediate polyamide film webs having a basis weight of 70 g / m (in the case of thicker film, only one film web may be required)

 The result is a glass fleece-reinforced laminate.

3. Several webs of cotton-wool paper with a surface

of 80 g / m are each provided with an outer and intermediate polyamide film web with a surface

2 mass of 70 g / m processed according to the invention.

The result is a paper-reinforced Polyamidschichtpreßetoff.

Claims (3)

Erfindungsanaprüche A process for the continuous production of reinforced thermoplastic laminates, wherein the molten thermoplastic penetrates the substrate, characterized in that thermoplastic films are supplied together with the carrier webs in a layered structure over a Vorvärmhstrecke a calender consisting of a plurality of rollers, wherein at least two rollers are heated above the melting point of the thermoplastic. 2. The method according to item 1, characterized in that the layered structure of the webs in the order thermoplastic film - carrier web ... Carrier sheet thermoplastic film takes place. 3. The method according to item 1, characterized in that the thermoplastic film webs are narrower than the carrier webs.