Thermoplastic film

Abstract

A film is provided, including 10 to 20 weight percent of a thermoplastic elastomer, preferably a chlorinated polyethylene, 10 to 20 weight percent of a thermoplastic that is a chlorine-based plastic, less than 15 weight percent of a modifier that imparts predetermined mechanical properties to the film, and 20 weight percent or less of a nondiffusing plasticizer, less than 40 wt % of a filler and 20 wt % or less of a flame-inhibiting material.

Claims

1. A film comprising: 10 to 20 weight percent of a chlorinated thermoplastic elastomer with respect to a total weight of the film, wherein the chlorinated thermoplastic elastomer is a chlorinated polyethylene; 10 to 20 weight percent of a thermoplastic with respect to the total weight of the film, wherein the thermoplastic is a chlorine-based plastic; less than 15 weight percent of a modifier with respect to the total weight of the film, wherein the modifier is a resin that imparts predetermined mechanical properties to the film; 20 weight percent or less of a nondiffusing plasticizer with respect to the total weight of the film; less than 40 weight percent of a filler with respect to the total weight of the film; and 20 weight percent or less of a flame-inhibiting material with respect to the total weight of the film, wherein the flame-inhibiting material comprises 1-10 weight percent antimony trioxide with respect to the total weight of the film and 5-15 weight percent decabromodiphenylethane with respect to the total weight of the film.

2. The film according to claim 1, wherein the film comprises 5 to 20 weight percent of the plasticizer with respect to the total weight of the film.

3. The film according to claim 1, wherein the flame-inhibiting material complies with Euroclass B of the European standard specification EN 13501 except for the smoke emission test.

Description

DETAILED DESCRIPTION OF THE INVENTION

(1) The present invention proceeds from a film that includes the following constituents: 10 to 20 weight percent of a thermal elastomer which is a chlorinated elastomer, 10 to 20 weight percent of a thermoplastic which is a chlorine-based plastic, less than 15 weight percent of a modifier which is a resin with which in particular the mechanical properties of the film are predeterminable, less than 20 weight percent of a nondiffusing plasticizer, of a filler and also of a flame-inhibiting material.

(2) It has surprisingly transpired that a mixture of a thermoplastic elastomer, in particular, chlorinated polyethylene, of a thermoplastic, in particular, PVC, of a plasticizer such as, for example, chloroparaffin together with a predetermined amount of flame-inhibiting material, in particular, brominated flame-inhibiting material do not have the disadvantages of known membranes for protection, in particular, from moisture.

(3) The inventors found that films of this type can be thermosealed, thermofused and solvent adhered. In addition, the material can be attached like conventional films or membranes, in particular cut and bent into the right shape.

(4) A thermal elastomer and a thermoplastic combined with a modifier based on ethylene in particular are the basis of the mixture. The requisite type and the amount of plasticizer in the mixture are determined in particular by a desired elasticity and stress-withstanding capacity of the film for a predetermined use. This may differ, for example in accordance with the temperature range in the desired mode of use. Fillers in the mixture of the film may be selected such that they have, for example, good fire resistance properties and/or good smoke avoidance properties. A filler may further determine the color of the end product.

(5) In one preferred embodiment of the film, the film comprises a predetermined amount of a flame-inhibiting material such that Euroclass B of European standard specification EN 13501 can be complied with. This is the best fire protection class for industrial and dock applications. Owing to the material's low level of heat development, the smoke gas emission test to IMO A-563 or IMO RES 61 (67) is not required.

(6) The table which follows specifies the Constituentsthermoplastic elastomer, thermoplastic, modifier, filler, flame-inhibiting material and also plasticizeras exemplary particularized ingredients and also the preferred weight percentage contribution to the overall mixture.

(7) TABLE-US-00001 TABLE Weight Constituent Possible ingredients fraction thermoplastic chlorinated polyethylene 10-20% elastomer thermoplastic PVC (polyvinyl chloride) 10-20% PVC-VA copolymer polymerized PVC copolymer with ACR modifier ketone ethylene ester <15% resin ethylene methyl acrylate resin ethylene ethyl acrylate resin ethylene butyl acrylate resin filler aluminum hydroxide 0-40% magnesium hydroxide magnesium oxide gibbsite/brucite hydrotalcite calcium carbonate zinc hydrox stannate zinc borate flame- antimony trioxide 1-10% inhibiting decabromodiphenylethane 5-15% material 2,4,6-tris(2,4,6-tribromo phenoxy)-1,3,5 Brominatex epoxy polymer plasticizer chlorinated paraffins 5-20% fatty acid polyester dibutoxyethyl phthalate trioctyl trimellitate

(8) The individual constituents may also be a mixture of the individual ingredients. For example, the thermoplastic may also be a mixture of PVC and PVC-VA in a predetermined mixing ratio.

(9) The resins may be selected according to the desired mechanical properties and/or any surrounding conditions.

(10) The mixture for producing the film may further comprise an added dye, for example titanium oxide or carbon, to obtain color effects in the black, gray and white region. The proportion of carbon is preferably less than 10 weight percent, that of titanium oxide is preferably less than 5 weight percent.

(11) The filler may also be selected according to which mechanical properties and/or flame-inhibiting properties are desired.

(12) The flame-inhibiting material shall preferably be selected for establishing the flame-inhibiting properties. However, mechanical properties can thereby also be influenced to a certain extent.

(13) The flame-inhibiting material antimony trioxide is preferably used in a range of 1 to 10 weight percent. The flame-inhibiting material decabromodiphenylethane is preferably used in a range of 5 to 15 weight percent.

(14) The proportion of plasticizer is preferably in a range of 5 to 20 weight percent. The plasticizer is preferably also used to establish the flame-inhibiting property and the glass transition point (TG value).

(15) The film according to the present invention is preferably produced using the following steps.

(16) Assembling and combining the mixture for producing the film is preferably effected in a mixer unit equipped with an automatic loading and weight control system in order to achieve a consistent quality and properties for the mixture. The mixer unit preferably consists of an internal mixer equipped with intermeshing rotors which is operated in automated fashion. From the mixer unit, the material may pass to a two-roll stand equipped with a stock blender in order to cool the mixture and make uniform distribution of all ingredients possible.

(17) A four-roll calender follows in a subsequent step. This machine is intended to predetermine the structure of the mixture particularly as regards a desired thickness and width for the film.

(18) After calendering, the film is cut to a predetermined width and cooled, for example, by means of water or air. The film is subsequently rolled up together with a release liner to separate the surfaces.

(19) The film according to the present invention makes it simple to realize predetermined fittings. This can be done by cutting, for example. The joining together of cut edges to form a final shape can be done by means of thermofusing.

(20) Thermoforming is another possible way to achieve shaping.

(21) This makes it possible to realize one-piece shapes of differing configuration.

(22) The following use is conceivable.

(23) An insulation system preferably comprises 4 base components which specify the various elements for insulation and covering.

(24) 1. There is first of all the pipe which is to be insulated. Pipe diameter may amount to meters or centimeters, e.g., 1 cm to 2 m.

(25) What matters is what is transported in the pipe, at which pressure and at which temperature. Water or chemicals are concerned, for example.

(26) 2. The next aspect to be considered is the pipe shape, with any branching necessitated by a landscape or a track across an industrial site.

(27) One essential point of the insulation system is the insulation itself to protect the pipe and its contents from any undesirable external influences. These various requirements lead to various insulation materials, for example, glass wool, rock wool, elastomeric foam, polyurethane foam, to name but a few of the most commonly used ones. The insulation may also be a combination of these materials. And further materials may also be used to effect an optimization as regards an acoustical insulation for noise absorption or noise reduction.

(28) 4. The insulation material must finally be protected against external influences such as moisture, cold, heat, UV light, pressure and the ingress of moisture into the insulation. This is where the film according to the present invention is used, by means of which an insulation shell is simple to seal off hermetically from the surroundings.

(29) Seams can be sealed without problems by thermofusing on the pipe itself without it being necessary to have to use an additional substance or material such as glue or putty.

(30) This form of bonding may be effected for the complete system including any fittings. Seams of this type have a comparatively better level of stability than the film itself. In addition, a seam due to cold fusion with a solvent or adhering with a neoprene adhesive may be used as a further possibility. In principle, the film according to the invention has the advantage that no additional material is required to seal seams and butt joints, making for simple handling and safe use.