DE1805411B2 - Process for the preparation of N- (w-aminoalkanoyl) -diamines - Google Patents

Description

It is known. Lactams with diamines to the corresponding ω-aminoalkanoyl derivatives of diarrins to implement. According to a method described in DE-PS 8 37 539, this implementation is at

H temperatures of 150-300 ⁰ C. This gives within 7 hours at 25O ⁰ C, these derivatives only in yields of less than 50%.

According to another, in DE-PS 1124 688 The method described are under the above reaction conditions from caprolactam and Polyamines containing at least 2 amino groups, N, N'-bis (6-aminohexanoyl) derivatives of diamines produced, even if one mole of lactam is used per mole of diamine.

2 HN- (CH,), - CO + Η, Ν — R —NH -.-- * H, N —ICH,)., - CO - HN — R-NH-OC- (CH ₁ I ₅ -

I "* I

The yield should be 90%, based on the lactam used, i.e. H. about half of the amount used Diamine is not converted and has to be removed by distillation.

This finding could also be made for the homologues of caprolactam with 6-11 ring carbon atoms will. N- (ü) -Aminoalkanoyl) derivatives of diamines are known under the reaction conditions of this Procedure not available.

It has now surprisingly been found that N- (w-aminoalkanoyl) derivatives of diamines can also be used the general formula

H ₂ N- (CH ₂ ) ,, C-NH-R-NH ₂

in which η is an integer from 3 to 11 and R is a divalent radical derived from aliphatic or cycloaliphatic diamines having 2 to 38 carbon atoms or the 3-aza-1,5-pentylene radical, by heating lactams with 4 can get to 12 carbon atoms with the corresponding diamines at elevated temperature, in a controlled manner and within short reaction times, when the reaction of lactams with diamines in the presence of acidic catalysts and / or water at temperatures of 100-350 ⁰ C, preferably 150 to 300 ° C.

Suitable acidic catalysts are mineral acids, e.g. B. phosphoric acid or sulfuric acid; acid salts Polybasic mineral acids such as monosodium phosphate or monosodium sulfate; organic acids, such as Adipic acid, decanedicarboxylic acid, benzoic acid, sulfonic acid; acidic salts of polybasic organic Acids, e.g. B. mono-sodium citral or mono-Na-adipate; acidic ion exchangers, e.g. B. polystyrene polysulfonic acid. All of these acids and salts can also affect a finely dispersed or porous support, which itself has no catalytic activity needs, e.g. B. with sulfur uder phosphoric acid treated porous clay discs. A special execution

Jo rungsform is the use of solid or liquid Acids which are insoluble in the reaction mixture. Even Water acts like an acid in these reactions.

The effectiveness of water and acidic compounds in the polycondensation of lactams is known. However, one cannot conclude from this that the same catalysts must accelerate the reaction of lactams with diamines. Even less predictable and therefore surprising is the fact that the said catalysts preferentially accelerate the formation of the N- (ü) -aminoalkanoyl) compounds in the same reaction mixture that, without catalysts, would accelerate the N, N'-bis- (a) -aminoalkanoyl ) Connection supplies.
The latter arise in the case of the invention

4> Small amount of operation as a by-product. she can be almost completely avoided by using an excess of amine.

The catalysts according to the invention - provided they are homogeneously miscible - are effective even in very small amounts. For mineral acids the preferred range is 0.005-5%, for organic acids 0.1-10% and for water 0.05-10%. For example, in the case of phosphoric acid, an addition of 0.01% by weight is sufficient. In a 7usatz of 0.1 wt .-%, the reaction proceeds for example in caprolactam so quickly that decreases at 200-23O ⁰ C of caprolactam in the reaction mixture within 30 minutes to less than 4%. The acid catalysis can be further improved by using small amounts of water.

w) If water is used alone as a catalyst, see above In the context of this invention, significant catalysis takes place at a content of 0.25%. Useful Reaction rates with an almost 100% conversion in a maximum of 2 hours are obtained with one

h-5 water content of I -2%.

The reaction can be carried out either in the gas phase or in the liquid phase. The Reak-'iorjs ^ emäscri kiip.p. z. B. in a stirred kettle! heated

or in liquid or gaseous form through a tube with fixed contacts. if Products of high purity are required, so it can The reaction mixture can be purified by distillation in vacuo. This is e.g. B. necessary when the N, N'-bis (£ t) -aminoalkanoyI) compounds contained as impurities precipitate in a finely divided form that is difficult to filter.

The yields of mono- (ta-aminoalkanoyl) compounds are at least 85%. ι ο

The inventive method can be used for the preparation of N- (M-aminoalkanoyl) derivatives of aliphatic and cycloaliphatic diamines with 2 - 38 carbon atoms in the molecule, according to the conversion equation from column 1,2 amines with 2 primary amino groups, ζ. B. ethylenediamine, 1,4-diaminobutane, 1,9-diaminononane, 1,2-diaminodecane, 2,2,4- and / or 2,4,4-trimethylhexamethylenediamine, diethylenetriamine, 1,4-diaminocyclohexane and 1-amino-3-aminomethyl-SAS-trimethylcyclohexane.

These are implemented with lactams of the formula

OC- (CH ₂ ) "- NH

where / 7 = 3-11, e.g. pyrrolidone, caprolactam, Oenanthlactam, capryllactam, laurolactam.

It was also found that the content of N, N'-bis (iD-aminoalkanoyl) compounds in the reaction of branched aliphatic and cycloaliphatic diamines is lower than that of the corresponding unbranched connections. With the particularly advantageous trimethylhexamethylene diamines and trimethylaminomethylcyclohexylamines is the content of N, N'-bis (w-aminoalkanoyl) compound so low that a distillation after the reaction is no longer necessary. The reaction with these highly branched aliphatic or cycloaliphatic diamines, which have 3 or more alkyl groups than Carrying substituents on the C skeleton therefore represents a particularly favorable embodiment of the invention Procedure.

The compounds prepared according to the invention are excellent hardeners for epoxy resins.

Example la
(Comparative example, DE-AS 11 24 688, example B)

226 parts by weight (2 mol) of caprolactam and 206 parts by weight (2 mol) of diethylenetriamine were in heated in a pressure vessel to 215 ° C and stirred. The Excess amine is distilled off and about 110 parts by weight are recovered. The yield of N, N'-bis (6-aminohexanoyl) compound was 306 parts by weight (93% of the stoichiometrically calculated yield). N- (6-aminohexanoyl) compound can only be contained in very small amounts according to the material balance.

Example Ib
(inventive method)

226 parts by weight of caprolactam, 206 parts by weight of diethylenetriamine and 8 parts by weight of water were in a Pressure vessel heated to 215 ° C. for 3 h and stirred. The water was distilled off by letting down the pressure. Afterward about 15 parts by weight of amine were recovered by vacuum distillation. The backlog of 415 Parts by weight consisted of 367 parts by weight of N- (6-aminohexanoyl) compound and 48 parts by weight of bis (6-aminohexanoyl) compound.

Example 2a
(Comparative example)

237 parts by weight (1.5 mol) of a mixture of approximately equal parts of 2,2,4- and 2,4,4-trimethylhexamethylenediamine and 113 parts by weight (1 mol) of caprolactam were heated to 240 ° C for 20 hours. 160 parts by weight of unreacted amine were then distilled off in vacuo. The residue contained 175 parts by weight of N ₁ N'-bis (6-aminohexanoyl) compound (91% of the stoichiometrically calculated amount).

Example 2b
(inventive method)

237 parts by weight of a mixture of approximately equal parts of 2,2,4- and 2,4,4-trimethylhexamethylenediamine, 113 parts by weight of caprolactam and 0.1 part by weight of phosphoric acid were heated to 240 for 1/2 hour ⁰ C heated. Then 87 parts by weight of excess amine were distilled off in vacuo. The residue contained 258 parts by weight of N- (6-aminohexanoyl) compound (95% of the stoichiometrically calculated amount) and 12 parts by weight of N, N'-bis (6-aminohexanoyl) compound.

Example 3

1 kg of pottery shards with a grain size of less than 5 mm were treated with 20% sulfuric acid and, after washing with water, dried. This contact mass was filled into a heatable glass tube. A mixture of 255 parts by weight of l-amino-S-aminotnethyl-SSS-trimethylcyclohcxan and 113 parts by weight caprolactam was passed through the contact tube at 240 ⁰ C. The residence time was 20 minutes. The effluent was cooled and the excess diamine was distilled off in vacuo. 95% of the residue consisted of N- (6-aminohexanoyl) compound. The analysis showed 268 parts by weight of the N- (co-aminohexanoyl) derivative and 15 parts by weight of the N, N'-bis (io-aminohexanoyl) derivative.

Example 4

197 parts by weight (1.5 mol) of 2,2,4-trimethylhexamethylenediamine, 197 parts by weight (1 mole) of laurolactam and 0.4 parts by weight of phosphoric acid were placed in a pressure vessel Heated to 270 ° C. for 2 hours with stirring. Then 95 parts by weight of trimethylhexamethylenediamine were added distilled off in vacuo. The remaining highly viscous liquid consisted of 95% the N- (a> -aminododecanoyl) compound of trimethylhexamethylenediamine. The analysis showed 338 parts by weight of the N- (a) -aminododecanoyl) derivative and 17 Parts by weight of N, N'-bis (w-aminododecanoyl) compound.

Claims (4)

Patent claims: 1. Process for the preparation of N- (a> Aminoalkanoyl) -diamines the general formula H ₂ N- (CH ₂ I ₁ -C-NH-R-NH ₂ in which η is an integer from 3 to 11 and R is a divalent radical derived from aliphatic or cycloaliphatic diamines having 2 to 38 carbon atoms or the 3-aza-1,5-pentylene radical, by heating lactams with 4 up to 12 carbon atoms with the corresponding diamines at elevated temperature, characterized in that the reaction of lactams with diamines is carried out in the presence of acidic catalysts and / or water at 100-350 ° C. 2. The method according to claim 1, characterized in that this in the presence of 0.005-5 Carries out wt .-% of a mineral acid. 3. The method according to claim 1 and 2, characterized in that this is in the presence of 0.05-10% by weight of water is carried out 4. The method according to claim 1-3, characterized in that this in the presence of 0.1-10% by weight of an organic acid.