DE1149901B - Process for the production of higher molecular weight condensation products which are insoluble in water - Google Patents

Description

Process for the production of higher molecular weight, insoluble in water Condensation products It is known from Austrian patent specification 157 715, Aminotriazines with paraformaldehyde and oxyalkylamines in the presence of monovalent to condense aliphatic alcohols by heating. The aminotriazines can various substituents such as amino, oxy, halogen, alkyl, aryl or heterocyclic Groups, included.

It has now been found that higher molecular weight, water-insoluble condensation products can be obtained by reacting substituted aminotriazines, paraformaldehyde and oxyalkylamines of the general formula N RR1R2 in which R is an oxyalkyl radical with 2 to 4 carbon atoms, R1 is a hydrogen atom or an oxyalkyl radical with 1 to 4 carbon atoms and R2 is a hydrogen atom, an alkyl radical with 1 to 4 carbon atoms, an oxyalkyl radical with 2 to 4 carbon atoms or a - (CHnNRRr radical in which R and R1 have the above meaning and n is a number equal to 2 or 3, in the presence of saturated monovalent aliphatic alcohols having a maximum of 5 carbon atoms at elevated temperatures up to the solubility of the reaction mixture in dilute, lower organic acids, if substituted aminotriazines are used, which are obtained by reacting 1 mol of a compound of the formula in which R denotes a hydrogen atom, an amino or alkyl group having 1 to 22 carbon atoms, with at least 1 mol of an aliphatic monoisocyanate having more than 10 carbon atoms have been prepared. Compared to the known condensation products, these new valuable condensation products have the advantage of a much greater shelf life. In many cases, there is also better compatibility with salts of polyvalent metals, which is also important when used for water-repellent impregnation.

The preferred compounds of the formula N R R1R2 are di- (oxyalkyl) amines and tri- (oxyalkyl) amines are used. Their amount is in particular 0.5 to 2 mol per mole of the above triazine compound.

Paraformaldehyde is reactive in an amount of at least 1 mole per mole Hydrogen on a nitrogen of the triazine compound are preferably used Amounts of 1.5 to 2 moles of paraformaldehyde per mole of reactive hydrogen on a nitrogen used.

The alcohols are particularly suitable as monohydric aliphatic alcohols with 4 carbon atoms suitable. The amount of alcohol is relevant to the manufacturing process is not important, but so much alcohol should be used that the reaction mixture after possibly several hours of reflux condenser heating gives a clear solution.

However, it can also happen that when heating on the reflux condenser even smaller fractions remain undissolved, which are then distilled off during the subsequent distillation of the alcohol go into solution.

The implementation of the starting materials specified above is carried out in such a way that that the individual components (in the case of solids, especially in powdered form) mix with alcohol in a vessel equipped with a reflux condenser, while running Stirring heated to reflux and - after a clear solution has formed - under the alcohol used is distilled off as the temperature increases. It will the heating is carried out at a final temperature of about 145 to 1600 C and at leave this temperature until the condensation product in hot, dilute acetic acid is clearly soluble. Under dilute acetic acid, a 5- to 200% aqueous solution is used Understood solution of acetic acid.

The condensation products thus obtained are with the usual, with Water-immiscible, organic solvents, preferably in a weight ratio Mixable 1: 1. They are particularly useful in textile treatment because they in acidic, aqueous solution or dispersion represent emulsifying bodies, but which when heated, if necessary with the use of a customary metal salt catalyst, not only become water-insoluble, but also water-repellent.

In the unhardened state, they are capable of with the addition of low organic substances Acids, substances that are insoluble in water, such as paraffin, wax, or immiscible with water Solvents such as gasoline, benzene, toluene, chlorobenzene, trichlorethylene or tetrachlorethylene, to bring into stable aqueous emulsions.

As further technical advantages of those produced according to the invention Products are to be listed: a) The metal salt resistance in aqueous acidic solution, which are significant for use in making textiles water-repellent is. b) You can add aluminum, zirconium or magnesium salts to the liquor for Add hardening purposes to the usual quantities without impairing the stability of the liquor, while comparative products made from melamine often only have buffered ones Zirconium salt solutions can be added.

Example 1 In a three-necked flask equipped with a stirrer, reflux condenser and thermometer is provided, 150 parts of one are made by heating 1 mole of melamine Melamine derivative obtained with 1.5 mol of octadecyl isocyanate at temperatures of about 2400 C, 90 parts of paraformaldehyde, 540 parts of isobutanol and 54.5 parts of triethanolamine below Stir mixed and refluxed for 3 hours. After this time the contents of the flask are become perfectly clear. The reflux condenser is now removed and a descending one instead The cooler is attached to the piston. Isobutanol becomes isobutanol with a continuous increase in temperature distilled off to a final temperature of about 155 "C and at this temperature continue to heat while stirring until a sample of the contents of the flask is obtained is clearly soluble in hot, 6% acetic acid. Then the product becomes in itself known manner mixed with 226 parts of molten paraffin and allowed to cool poured out on a plate in a thin layer.

Example 2 If the procedure is the same with 150 parts of a melamine derivative, which has been prepared by heating 1 mole of melamine with 1 mole of octadecyl isocyanate is, 90 parts of paraformaldehyde, 500 parts of butanol and 40 parts of diethanolamine and sets the end product after it is soluble in hot, about 100% acetic acid If 175 parts of paraffin is to be added, a product is obtained which in its properties largely coincides with that of Example 1.

Example 3 In a flask as described in Example 1 are 1 mole of a melamine derivative that is setting of 1 mole of melamine with 2 moles of hexadecyl isocyanate is obtained with 12 moles of paraformaldehyde and 1 mole of N- (n-butyl) diethanolamine in 34 moles of isobutanol are heated to reflux until a completely clear solution is obtained. The isobutyl alcohol is then poured on the descending cooler with an increase in temperature distilled off to a final temperature of about 150 to 160 "C and the reaction mixture leave at this temperature until the product is completely dissolved in hot, 6 ° / o acetic acid is clearly soluble. 1 part of this condensation product can be mixed with 1 part paraffin merge.

Example 4 The procedure is as in Example 3 and used instead of the N- (n-butyl) diethanolamine 0.8 mol of trioxyethylethylenediamine is obtained a product that is available as a 500/0 mixture with a wax of Sz. 5 when it is melted with water with the addition of 1 times the amount of 60% acetic acid and in portions Dilution with hot water gives very good and stable emulsions.

Example 5 In a three-necked flask as described above 37.5 parts of one obtained by heating 1 mole of 2,4-diamino-6-octadecyl-1,3,5-triazine with 1 mol of octadecyl isocyanate at 240 ° C obtained product with 8.5 parts of triethanolamine and 21 parts of paraformaldehyde in 130 parts of butanol refluxed for 1/2 hour. Then butanol is added to a final temperature of 150 "C with continuous stirring distilled off and stirred at 150 "C until the product in 20 ° / Oiger acetic acid is almost clearly soluble.

Example 6 In a boiler heated with high pressure steam, 150 kg of primary n-amyl alcohol and then 75 kg of a reaction product with stirring from 1 mol of melamine with 1.2 mol of octadecyl isocyanate, 42 kg of paraformaldehyde and 17 kg Triethanolamine added. The mixture is then heated to reflux temperature while stirring, a completely clear solution results after a short time. The ascending one At this point in time, the cooler is also heated with pressurized steam and only the one on it subsequent descending cooler cooled. It is distilled off within 3 hours of the amyl alcohol brought the internal temperature to about 160 "C and after reaching This temperature is stirred for a further 40 minutes, a product being formed that is completely soluble in hot 60% acetic acid.

In all examples, parts by weight are given unless they are expressly says something else.

There is no protection for the preparation of the substituted aminotriazines desired.

Claims (1)

PATENT CLAIM: Process for the preparation of higher molecular weight, water-insoluble condensation products by reacting substituted aminotriazines, paraformaldehyde and oxyalkylamines of the general formula NR Rl R2 in which R is an oxyalkyl radical with 2 to 4 carbon atoms, R1 is a hydrogen atom or an oxyalkyl radical with 2 to 4 carbon atoms and R2 a hydrogen atom, an alkyl radical with 1 to 4 carbon atoms, an oxyalkyl radical with 2 to 4 carbon atoms or a - (CHnNRRr radical, in which R and Rl have the above meaning and n is a number equal to 2 or 3, in the presence of saturated monovalent aliphatic alcohols having at most 5 carbon atoms at elevated temperatures up to the solubility of the reaction mixture in dilute, lower organic acids, characterized in that substituted aminotriazines are used which are obtained by reacting 1 mol of a compound of the formula in which R denotes a hydrogen atom, an amino or alkyl group having 1 to 22 carbon atoms, with at least 1 mol of an aliphatic monoisocyanate having more than 10 carbon atoms have been prepared. Publications considered: Austrian patent specification No. 157 715.