DE883884C - Process for finishing textile goods and other fiber material - Google Patents

Description

Process for finishing textile goods and other fiber materials Es has already been proposed to use textiles, paper, cellulose hydrate films and the like. to refine by the fact that the material with solutions of higher Al1Lyl- or naphthene isocyanates. treated with at least 10 carbon atoms in the molecule with post-heating. Through this in particular, good hydrophobic effects are to be achieved. A similar one, too known way of working consists in the fact that the material with low molecular weight aliphatic polyfunctional, ionic isocyanates as well as with higher molecular weight alcohols or phenols, Treated carboxylic acids or amines and then also subjected to a heat treatment. In this case too, good hydrophobic effects should be observed. In the former Case one has a reaction between. Hydroxyl groups of cellulose and the isocyanate groups assumed, while in the second case it was assumed that the polyfunctional Isocyanates with some of the isocyanate groups also react with the cellulose, while the other part relies on the alcohols, phenols, Acids or amines added.

The surprising discovery has now been made that one is special washable water-repellent effects on textiles and other fiber materials, such as Paper, leather, etc., can be achieved if the goods are treated with solutions of paraffin, Waxes or wax-like substances and mono- or polyfunctional isocyanates treated and it is then heated to temperatures that are above the melting point of the paraffin or the waxes. These effects are therefore particularly surprising because the waxes and wax-like substances as well as paraffin do not contain isocyanates contain reactive groups. As a result, there is no possibility of one chemical fixation in the sense of the previously known: procedure given. As a monofunctional Isocyanates are those with higher alkyl radicals, such as octadecyl isocyanate. The main polyfunctional isocyanates are aliphatic and aromatic Diisocyanates, such as hexamethylene or tolylene diisocyanate; in question. Further be soluble reaction products of polyfunctional hydroxyl compounds with a Mentioned excess of diisocyanates, which therefore contain free isocyanate groups. These isocyanates are preferably used in inert solvents such as esters or chlorinated hydrocarbons. As waxes or wax mixtures Both those based on natural materials and those based on synthetic materials are available Base in question. For example, montan wax and those by ketonization of Tranfatty acids available products, mentioned. Of course you can on the side also compounds that contain one or more reactive hydrogen atoms included. , Example i A light cellulose fabric is impregnated with a solution of 10 g octadecyl isocyanate and 10 g paraffin, melting point 52 to 54 ° per liter of carbon tetrachloride, and heated to 10 ° for 15 minutes. That Fabric is more water-repellent than without using paraffin. The water repellent Effect also changes after ten washes at 45 ° with 3 g of soap and 1 g of soda per Liters of water, liquor i: 2-5, not provided that the soap is used after every wash is rinsed well. Ex.i.el2 Man. iimp @ wraps a light cellulose fabric or a taffeta fabric made of viscose with a solution of hexamethylends: isocyanate and 10 g of a wax mixture containing 5 g% paraffin, 11% ceresin, 19% Montanic acid esters and i% high molecular weight neutralized fatty acids from the Paraffin oxidation, and heats the tissue to go ° for 10 minutes, then 10 minutes on i io °. The fabric is pulled after repeated washing with soap powder at 45 ° still good water repellency. The water-repellent effect is even after ten washes at $ 5 ° with io g soap still good.

In the same way, one can use cotton or raincoat fabric Excellent hydrophobic properties for artificial silk. Acetate silk gets after this Working method has a wash-resistant rinsing effect. This also makes wool washable hydrophobized. Instead of hexamethylene diisocyanate, you can also use toluene diisocyanate, Oktadecylphenylerl@di.isocyanat, i, i2-Dodecandii-socyanat with about the same effect use. Example 3 With drew the Dii: socyanats, which can be obtained by reacting i Mol Stearyl diethanolamide; from stearyl chloride and ethanolamine according to Schotten.-Baumann manufactured; obtained with 2 iMol hexamethylene diisocyanate, and io g that in the example i used wax mixture per liter of carbon tetrachloride impregnated one like in the examples above, cellulose fabric.

Here, too, an excellent wash-resistant hydrophobic effect is obtained on the fabric, which at the same time has a soft, full feel. Example 4 A cellular wool fabric is impregnated with 10 g of hexamethylene diisocyanate and ro g of one condensation product formed by ketonization of trans-fatty acid, as in Example described. A very washable water repellent effect is obtained.

Claims (1)

PATENT CLAIM: Process for finishing textiles or other items Fiber material, characterized in that the material with solutions of mono, or polyfunctional isocyanates and paraffin, waxes or wax-like substances and then heated to temperatures above the melting point of the paraffin or , the waxes lie.