DE2633837C2 - Transparent foils - Google Patents

Description

The invention relates to the use of polyhexamethylene isophthalamide with a relative solution viscosity of 23 to 3.5, measured on a one percent solution of the polyamide in m-cresol at a temperature of 25 ° C., in a process for producing transparent films with a thickness of 10 to 1000 μ by extrusion from a slot die at temperatures from 250 ^° C. to 320 ^° C. or by the blown film process.

Films made of 6- and 6,6-polyamide are characterized by a number of excellent properties such as high toughness and abrasion resistance, low gas permeability, good printability and metallizability as well as their high melting point and good resistance against non-polar, organic solvents. Because of these properties, polyamide films are used used as packaging material

The disadvantage of these films is their high permeability for water vapor and the high melting point of polyamides. The high water vapor permeability prohibits the packaging of food for long periods of time. The high melting temperature of the polyamides and their low melt viscosity result in poor deep-drawability and poor Heat sealability of the films. Another disadvantage in particular of the polyamide monofilms, but also of the composite film, is the great tendency to block. This makes processing the foils much more difficult.

One has these shortcomings through the use of composite films made of polyamides and polyolefins such. B. Tried to fix polyethylene. Polyethylene acts as a water vapor barrier and leads to good heat sealability the composite films. However, the composite films can only be produced with considerable effort.

It has now surprisingly been found that polyamide films made from polyhexamethylene isophthalamide the disadvantages of 6 or 6,6 · polyamide films do not have, but approach that of the composite films in their permeability behavior to water vapor.

The invention therefore relates to the use of polyhexamethylene isophthalamide in a process for the production of transparent films according to the patent claim.

In contrast to films made of 6- or 6,6-polyamide, the films remain transparent even with increasing layer thickness. The water vapor permeability of the films is considerably lower than that of the known polyamide films. They are also distinguished by good deep-drawability and improved heat-sealability. They show no tendency to block, ie no reduced lubricity of the films during processing.
For the production of the films according to the invention

to be used polyhexamethylene isophthalamides obtained by the known condensation process for polyamides. Preferably used for film production Polyamides having a relative viscosity of at least about 23, preferably 2 -3.5, measured on a 1% solution of the polyamide in m-cresol at 25 ° C

The films are produced using known processes by extrusion of the polyamide Slot nozzles on commercially available machines

Temperatures of 250 to 32O ⁰ C, preferably from 270

- 300 ⁰ C or according to the blown film process, like it

z. B. at Vieweg / Müller, Kunststoff-Handbuch Vol. Vl,

Polyamides p. 326 ff. (Munich 1966) is described. The foils serve as cover material, for packaging

of food and chemicals. Deep-drawn foils are used, for example, for the production of Packaging cans used.

example 1

A polyamide made from isophthalic acid and hexamethylenediamine with a relative solution viscosity of jTrci = 2.63, measured on a one percent solution in m-cresol at 25 ° C in an Ubbelohde viscometer, is applied to a Reifenhäuser S 30 extruder (L = 20 D) extruded at 290 ⁰ C by means of a 300 film die. The film is drawn off over cooling rollers at a temperature of 95.degree. The thickness of the foils is 50 μ. The foils are transparent and can be easily welded on commercially available foil sealing devices. The foils show no tendency to block. The water vapor permeability, measured according to DIN 53122 at 85% relative humidity and an average measuring temperature of 23 ° C., is 7.6 g · m ~ ² · d- '.

In comparison, the water vapor permeability is of known polyamide films:

6-polyamide (4 (^)
6.6 polyamide (40 μ)
and known composite films
6-polyamide and polyethylene (90 μ)

17g- m- ² -d- '

Example 2

Under the exirusion conditions described in Example 1 a film is produced in a layer thickness of 450 μ. The film is transparent. She lets herself after a preheating time of 90 s without difficulty to flawless cuboid or hemispherical ones Deep-draw cans with a height of approx. 6 cm.

Claims (1)

Claim: Use of polyhexamethylene isophthalamide with a relative solution viscosity of 23 to 3.5, measured on a one percent solution of the polyamide in m-cresol at a temperature of 25 ° C, in a process for producing transparent films with a thickness of 10 to 1000 μ by extrusion from a slot die Temperatures from 250 ° C to 320 "C or according to the blown film process.