DE571958C - Process for gluing cellulose hydrate foils onto metallic substrates - Google Patents

Description

Method for gluing cellulose hydrate films to metallic ones Supports Gluing of cellulose hydrate foils on metallic supports prepares Difficulty because the glue used for each of these two -different types Layers must have an effective adhesion, which is customary for cellulose films However, adhesives do not adhere well to metal surfaces. It is also often necessary a waterproof connection between the cellulose film and the metal base to achieve.

According to the invention, these conditions are thereby met in a simple manner It is sufficient that a solution of cellulose esters is used as an adhesive for such composite bodies and proteins in glacial acetic acid or a similarly acting common solvent is used. If you want a particularly waterproof connection of the cellulose film achieve with the metal base, the protein can still be added later by known means, e.g. B. formaldehyde or aluminum sulfate harden. With flexible ones Metal foils can also be used to bring about its special suppleness of the composite body to add a plasticizer to the adhesive solution. The metallic The base can be one or both sides with cellulose hydrate films according to the invention be pasted.

The adhesive to be used in the present invention can be detailed, for example be composed as follows: r. 6 parts collodion wool and 7 parts gelatin are used dissolved in 87 parts of glacial acetic acid.

2. 5 parts of acetyl cellulose and 2o parts of gelatin are divided into 75 parts Formic acid dissolved.

3. 6 parts of acetyl cellulose and 15 parts of gelatin are in 79 parts Dissolved phosphoric acid.

4. S parts of benzyl cellulose and to parts of gelatin are divided into 85 parts molten phenol dissolved.

These solutions can be used when gluing cellulose hydrate films add 2 parts of camphor on metal foils to increase the flexibility of the composite foil to add. Such metal foils glued over with cellulose layers stand out not only through the intimate gluing of the composite layers, but also through a great tear and crease resistance so that they are not only embossed, but also can be cut into any thin strips and ribbons, which then braid or twist again.

It has already been proposed to use a cellulose ester film with a Glass disk with the help of a gelatin interlayer using a common Solvents for gelatin and cellulose esters, e.g. B. acetic acid to connect and thereby the connection of the cellulose ester film and the gelatin layer by To facilitate the application of a thin auxiliary layer of cellulose ester on the gelatine. In the composite body obtained in this way, gelatine alone serves as an adhesive profile for the joining of glass pane and cellulose ester film and also cellulose ester for itself as an adhesive between gelatin layer and cellulose ester film, while according to the invention a solution of gelatin and cellulose ester in one common Solvent. as an adhesive for firmly gluing cellulose hydrate films and Metal washers is used. 'Furthermore, it is no longer new, _ a sleek, water-resistant adhesive made from a solution of glue and cellulose ester in glacial acetic acid and to form amyl acetate or acetone with the addition of a plasticizer. This Glue is used to connect cellulose hydrate films to metal substrates practically unusable, since it also contains amyl acetate and acetone, d. H. solvent which are not able to diffuse through the cellulose silicon film and therefore prevent the adhesive interlayer from completely drying, since the metal base does not absorb any solvent at all. According to the invention, however only glacial acetic acid or a similar solvent is used that is capable of is to evaporate through the cellulose hydrate film, so that the adhesive layer can dry and harden completely, as to achieve a solid and permanent adhesive effect is necessary. ,

Claims (2)

PATENT CLAIMS: t. Method for gluing cellulose hydrate foils Metallic bases, characterized; because: ß as an adhesive one Solution of cellulose esters and proteins in glacial acetic acid or something similar common solvent used. 2. composite film made of cellulose hydrate and metal foils, produced by the method of claim i.