DE1283511B - Moisture-proof, heat-sealable film made of vinylidene chloride copolymer - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. a .: C 08 f-29/1 4

B44d
C09d

German class: 39 b4 - 29/14

75c - 5/06

22h-3

Number: 1 283 511

File number: P 12 83 511.9-43 (B 35145)
Filing date: March 30, 1955
Open date: November 21, 1968

The present invention relates to a moisture-proof, heat-sealable film made of one Vinylidene chloride copolymer or cellulose hydrate film coated with this.

Vinylidene chloride copolymers soluble in organic solvents, z. B. vinylidene chloride-acrylonitrile copolymers, are colorless, transparent, flexible, firm, permanent, non-sticky, heat-sealable as well as moisture-proof and form, in particular for base films made of regenerated cellulose, which are used on a large scale as packaging material excellent protective coatings. These copolymers can also be self-supporting Films are produced, which due to the above excellent properties of these copolymers can be used with great advantage. However, such coatings and films only have very little slip, d. that is, their coefficient of friction is very high. There is a serious one in that Disadvantage of the films, which is noticeable when they are also used in packaging machines because there is a risk of the machine jamming. Also occur in the decrease single sheet of packaging material from a stack of difficulties. as

It is already known to use the vinylidene chloride copolymer to improve the slip Add ester wax. However, those according to the invention show a greater improvement in the hatching properties Foils.

The invention relates to a moisture-proof, heat-sealable film made from a vinylidene chloride copolymer or cellulose hydrate film coated with this, characterized in that the film or the coating consists of a copolymer consists of at least 80 parts by weight of vinylidene chloride and up to 20 parts by weight Acrylonitrile or methyl acrylate has been produced, and 1.0 to 5.0 percent by weight, based on the Solid weight of the coating or the film, a ketone in finely divided, which at least has a straight chain alkyl group having not less than 8 carbon atoms.

The self-supporting films according to the invention made of vinylidene chloride copolymer or with this Polymer-coated hydrate cellulose films have significantly better slip properties without Transparency, durability, moisture resistance, heat sealability, and other desirable properties the foils or coatings are impaired.

Ketones used as lubricants in the vinylidene chloride copolymer films according to the invention. Moisture-resistant, heat-sealable film
made of vinylidene chloride copolymer

Applicant:

British Cellophane Ltd.,

Bridgwater, Somerset (UK)

Representative:

Dipl.-Chem. Dr. W. Koch
and Dr.-Ing. R. Glawe,
Patent Attorneys, 8000 Munich

Named as inventor:

Edward George Sanderson,

Griffith Islwyn Evans,

Bridgwater, Somerset (UK)

Claimed priority:

Great Britain 3 August 1954 (22 455)

or coatings are present have the formula

^X R '

in which R is an alkyl group with a straight chain of at least 8 carbon atoms and R ' is an organic radical.

In the preferred solid ketones, R and R 'are each primary alkyl groups that have a straight chain have at least 8 and at most 33 carbon atoms.

The preferred ketone is Lauron with the formula

The moisturizing coating can thereby be applied to the base sheet made of regenerated cellulose be formed by placing a liquid, coating-forming mass on the surface of the base film applies, which consists of a volatile organic solvent or solvent mixture with it dissolved film-forming vinylidene chloride copolymer and a solid ketone of the type described in an amount of 1.0 to 0.5 percent by weight, calculated on the weight of the solids, after which the solvent is removed.

809 638/1630

3 4

The solvent or solvent mixture 7% water, calculated on the total weight of

can e.g. B. from methyl ethyl ketone or a gel contains cellulose and glycerin, is with a liquid

mix equal parts by weight of methyl ethyl ketone and gene, a waterproof surface coating

Toluene. The ketone should be coated in the solvent-forming mass, which by stirring

at least 2 percent by weight at 40 ⁰ C soluble 5 renvon
be.

The application of the material forming the coating, soluble in organic solvents

Any film-forming vinylidene can be applied to the surface of the base film.

Way, for example by spraying, brush application of chloride-acrylonitrile mixed polymer

or application of rollers. The solution, made from 180 parts

Medium or solvent mixture can consist of the vinylidene chloride and 20 parts

Heat evaporation surface coating- Acrylonitrile 16.67 parts

exposure to be removed. Lauron 0.55 parts

A self-supporting polyvinylidene chloride mixed organic derivative of a water polymer film can be made from the above-mentioned 15-containing aluminum silicate of
Mass can be made by pouring. In the rest of _{the type} described above, fine for the self-supporting films the same thing that disperse 0 28 parts

is carried out here for the coatings. τ ^ τ ,, ^ ι λ- \ τζ τ · -ι *.

τ-> -tr 1-j 1.1 ·? ι, · 1.1 - ^ m. toluene 41.25 parts

The vinyl chloride mixed polymer coating ■ »r ν,. τ. n ^ ™ · -,

preferably additionally contains 0.05 to 1.0 parts by weight of methyl ethyl ketone 41.25 parts

weight percent based on the weight of the solid- 100.00 parts

substance in the cover, a vinyl chloride polymer

sats or -mischpolymerisats a fine distribution, at a temperature of 50 ° C is produced until

which from 90 percent by weight or more mono- the vinylidene chloride-acrylonitrile copolymer

merem vinyl chloride has been produced. The best 25 and the lauron dissolve in the solvent mixture

Results are obtained when the particle size and the finely divided organic derivative des

the finely dispersed vinyl chloride polymer or water-containing aluminum silicate in the warm solution

-mischpolymerisats between 0.5 and 10 μ and vorsung is finely divided.

preferably between 0.5 and 3 μ. The liquid, the moisturizing one

Furthermore, the vinylidene chloride copolymer 30 surface coating-forming composition is applied to the sat coating, preferably an additional 0.5 to base film as a coating of such a small thickness 3.0 percent by weight, based on the solids applied, that after evaporation of the solution weight of the coating, of an organic derivative medium mixture, a surface coating is formed a water-containing aluminum silicate in finer, which is 1.5 g solids per square meter Distribution included. The usable organic 35 corresponds to each side of the slide. The solvent Derivatives of water-containing aluminum silicates are long- is removed from the coating by evaporation under chain alkylamine derivatives of bentonite. Bentonite is exposed to heat at a temperature of 130 ° C a valuable sound that removes its properties in 100 seconds.

Fuller's earth corresponds "and for the most part from The resulting film is transparent, in the case of

Consists of montmorillonite. When using these substances 40 touch is smooth and slippery and has one

Within the scope of the present invention, the slip value of 5.5 (measured according to the method below

long-chain alkylammonium bentonite in its mole-described manner). The film has a perme-

kül is a long chain alkyl group with up to 36 cohesion value of 110 and a heat seal strength

contain carbon atoms. The best results are obtained from 350 g. A control slide, which differs from the above

achieved when the finely dispersed organic derivative 45 differentiates film only in that it does not contain lauron

of the hydrous aluminum silicate is a particulate and not an organic derivative of a hydrous one

Size from 0.5 to 10 μ and preferably from 0.5 to aluminum silicate contains in the coating, has a

3.0 μ. As a finely dispersed organic derivative, a slip value of 2.2.

of a hydrous aluminum silicate is an example2

Commercially available product very suitable, which 50

is an octadecylammonium bentonite. A liquid, a moisturizing one

The above-mentioned finely divided vinyl chloride poly coating forming composition, which in the same

merisate or -mischpolymerisat as well as the fine dis- has been produced as in Example 1, is

per se organic derivative of water-containing aluminum as a foil with a thickness of 0.025 mm on a glass

nium silicate can be poured into the coating or the plate. The poured out liquid mass

self-supporting film ¹ forming, liquid mass in. is dried at 90 ° C for 1 hour. You get one

the volatile, organic solvent or solvent, moisture-proof, heat-sealable, self-supporting

solvent mixture can be added. In it they are ₀ slide. The solid film is removed from the glass plate.

Although insoluble, they remain in the liquid mass and are suspended in air at 90 ° C for 1 minute,

finely divided. 60 The film has a smooth, slippery surface.

The following examples explain the invention. The permeability value is determined according to the method

proper, moisture-proof and heat-sealable film. by Charch and Scroggie, described in "Paper

Parts and percentages refer to Trade Journal, Tappi Section, "October 3, 1935,

the weight. Pp. 201 to 209, determined.

Example 1 ^6s ^ ^ur measurement of the heat seal strength is as follows

* of the procedure applied:

A sheet of regenerated cellulose, the thickness of which is two strips of the coated material of

30 g / m ² corresponds and which 14% glycerine and 38 mm width are superimposed so that the

opposite sides of the film are in contact. Across the entire width of the material a heat-seal connection is made at one end by heating the film to a temperature of 1300 ° C heated sheet metal is placed and a roll 19 mm wide, which is loaded with 700 g, is rolled over it. The time during which the roller is in contact with the film is 3 seconds. the both strips sealed to one another in this way are opened at their free ends. The one end is grasped with a conventional clamp, and a light pan balance is attached to the lower free end, also by means of a conventional bracket. There are then weights in the bowl of the scales placed until the heat-seal connection loosens. The total weight in grams that goes into the solution the heat seal connection is required is specified here as "heat seal strength". A heat seal strength over 60 g is generally considered sufficient.

The slip value is measured by the cotangent of the angle of inclination at which a massive Steel cube with a side length of 31 mm begins to slide straight when both the base and the Cubes are covered with the film to be tested, as The test is carried out at a room temperature of 15 to 20 ° C

The invention creates a major obstacle to the use of vinylidene chloride copolymer coatings and corresponding self-supporting foils eliminated in that the foil surface receives a much better sliding ability.

The term "foil" is used here in the general sense and includes foil-like or film-like, sheet, sheet, sheet material.

Claims (3)

Patent claims: 1. Moisture-resistant, heat-sealable film made from a vinylidene chloride copolymer or cellulose hydrate film coated with this, characterized in that the film or the coating consists of a copolymer consisting of at least 80 parts by weight Vinylidene chloride and up to 20 parts by weight of acrylonitrile or methyl acrylate and 1.0 to 5.0 percent by weight based on the solids weight of the coating or the Foil, of a ketone in finely divided form, which contains at least one straight chain Alkyl group and not less than 8 carbon atoms. 2. Film according to claim 1, characterized in that the vinylidene chloride copolymer coating an additional 0.5 to 3.0 percent by weight, based on the solids weight of the coating, of an organic derivative of a finely divided water-based aluminum silicate. 3. Film according to claim 1, characterized in that the vinylidene chloride copolymer coating additionally 0.05 to 1.0 percent by weight, based on the weight of the solid in the coating, a vinyl chloride polymer or copolymer in fine distribution contains which is made from 90 weight percent or more monomeric vinyl chloride has been. Considered publications:
British Patent No. 531,497;
U.S. Patent No. 2,658,048. «09 638/1630 11. St Q Bundesdruckerei Berlin