CH628361A5 - Transparent films - Google Patents

Description

628 361

Claims (1)

PATENT CLAIM Transparent films based on polyhexamethylene isophthalamide with a thickness of 10 to 1000 μl. The invention relates to transparent films based on polyhexamethylene isophthalamide with a thickness of 10 μm to 1000 μm. 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 metallization properties, as well as their high melting point and good resistance to non-polar, organic solvents. Because of these properties, polyamide films are used as packaging material. Disadvantages of these films are the high permeability to water vapor and the high melting point of the polyamides. The high water vapor permeability prohibits food packaging for long periods of time. The high melting temperature of the polyamides and their low melt viscosity result in poor thermoformability and poor heat-sealability of the films. Another disadvantage of polyamide monofilms in particular, but also of composite films, is the great tendency to block. This makes the processing of the films considerably more difficult. Attempts have been made to remedy these deficiencies by using composite films made from polyamides and polyolefins such as polyethylene. Polyethylene acts as a water vapor barrier and leads to good heat-sealability of the composite films. However, the composite films can only be produced with considerable effort. Surprisingly, it has now been found that polyamide films based on polyhexamethylene isophthalamide do not have the disadvantages of 6- or 6,6-polyamide films and rather approach that of the composite films in terms of their permeability behavior to water vapor. The invention therefore relates to transparent films based on polyhexamethylene isophthalamide with a thickness between 10 and 1000 μl, preferably 20-500 μm. 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 characterized by good deep-drawability and improved heat-sealability. They show no tendency to block, i.e. they show no reduced lubricity during processing. The polyhexamethylene isophthalamides used to produce the films according to the invention are prepared according to the known Condensation process obtained for polyamides. Polyamides with a relative viscosity of at least about 2.3, preferably 2.5-3.5, measured on a 1% strength solution of the polyamide in m-cresol at 25° C., are preferably used for the film production. The films can contain the auxiliaries and additives known for polyamides, such as dyes and plasticizers. The films can be produced by known methods, e.g. by extrusion of the polyamide through slot dies on commercially available machines, at temperatures of 250 to 320° C., preferably 270-300° C., or by the film blowing method, as used, for example, by Vieweg/Müller, Kunststoff -Handbuch Vol. VI, Polyamide p. 326 ff (Munich 1966). The films according to the invention are generally used as cover material for packaging foodstuffs and chemicals. Thermoformed films are used, for example, to produce packaging cans. example 1 A polyamide made from isophthalic acid and hexamethylenediamine with a relative viscosity of r]reI = 2.63, measured on a one percent solution in m-cresol at 25 °C in an Ubbelohde viscometer, is extruded on a Reifenhäuser extruder S 30 (length of the screw = 20 X diameter of the screw) at 290°C through a film die of 300 mm width. The film is drawn off over chill rolls at a temperature of 95.degree. The foils are 50 mm thick. The foils are transparent and can be easily welded on commercially available foil welding devices. The films show no tendency to block. The water vapor permeability, measured according to DIN 53 122 at 85% relative humidity and an average measuring temperature of 23 °C, is 7.6 g-m~2-d-1. In comparison, the water vapor permeability of known polyamide films is: 6-polyamide (40 (i) 35 g- m~2 • d~1 6,6-polyamide (40 |x) 17 g- m~ 2 • d-1 and known composite films made of 6-polyamide and 2.3 g • m- 2 • d_ 1 polyethylene (90 u) example 2 A film with a layer thickness of 450 is produced under the extrusion conditions described in Example 1. The foil is transparent. After a preheating time of 90 s, it can be deep-drawn without difficulty into perfect cuboid or hemispherical cans with a height of approx. 6 cm. 2 5 10 15 20 25 30 35 40 45 50 c