DE567942C - Process for the simultaneous dissolution of rubber and nitrocellulose - Google Patents

Description

Process for the simultaneous dissolution of rubber and nitrocell silose Esters made from organic acids and aliphatic alcohols have been used as solvents in the paint industry, especially recently for nitrocellulose paints, versatile Use found. While it is attached to studs for dissolving nitrocellulose, synthetic resin etc. not lacking, since numerous esters of aliphatic monocarboxylic acids already exist for this have been proposed, there is a lack of solvents for rubber. Particularly What is sought, however, are those products that not only contain rubber but also use it at the same time Rubber and nitrocellulose are able to dissolve into a homogeneous mass, because on in this way a smooth, non-splintering and moisture-repellent lacquer is produced. The previously proposed use of castor oil or esters castor oil fatty acid and its derivatives are out of the question for the paint industry. because the substances mentioned do not evaporate due to their lack of volatility and consequently are useless for the production of topcoats.

It has now been found that the ester mixtures of monohydric aliphatic alcohols and saturated organic monocarboxylic acids, which are obtained in a known manner, for example by condensation of several, at least two, saturated aliphatic aldehydes by means of catalysts, in particular alcoholates, then have an excellent ability to dissolve both nitrocellulose and rubber if the esters contain at least 6 carbon atoms in the molecule, but are less than 12 carbon atoms. If you let z. If, for example, two different aliphatic aldehydes interact in the presence of aluminum alcoholate, the residues originating from different aldehydes primarily come together to form esters. One obtains z. B. from a mixture of acetaldehyde and butyraldehyde under the action of aluminum alcoholate Buttersäureä tlivlestei- and butyl butyrate. Small amounts of butylutyrate and acetic acid and ethyl acetate are also found. Although the last-mentioned ester is practically incapable of dissolving rubber at all, the ester mixture is eminently suitable for the purposes of the present process. The same applies to other ester mixtures which are obtained in the manner described. The use of in a simple -Z "else at times as a byproduct Estergemische available offers advantages over individual known as a common Loose for rubber and nitro cellulose esters the advantage that they yield uniform evaporate and consequently clearer films. Example iay parts by weight of N itrocellulose and 2 5 overall Parts by weight of rubber (crepe! with 700 parts by weight of an ester mixture consisting of 15 klo isobutyl isobutyl ester, .350 "o propyl propionate and 2oa'o ethyl butyrate. A clear, stable solution which can be further diluted by adding other solvents. _ Example 2 If 22 parts by weight of nitrocellulose are dissolved together with - &# parts by weight of rubber (crepe) in 35o parts by weight of an ester mixture that is formed by the condensation of acetaldehyde and isobutyraldehyde in the presence of aluminum alcoholate and boils between 75 and 150 °, this is obtained after pouring out the solution and evaporation of the solvent a soft plastic hey mass. EXAMPLE 3 The ester mixture obtained by condensation of enanthaldehyde and acetaldehyde, consisting primarily of the ethyl ester of enanthic acid, is capable of dissolving a mixture of equal parts of nitro wool and rubber diluted 10 to 2 times.

Claims (2)

PATE \ TANSPFL? CHr: i. A method of simultaneously dissolving rubber and nitrocellulose, characterized in that as' overall concomitantly solvent Estergemische from monohydric aliphatic alcohols and saturated monocarboxylic acids are used, but in the total molecule, at least 6, less than 12 Kohlenstofatome. 2. The method according to claim i, characterized in that that you can do this by condensing several, but at least two aliphatic aldehydes used with catalysts, in particular with alcohol breath resulting ester mixture.