Process for the production of polyamide

Details Process for the production of polyamide Process for the production of polyamide

2002-05-15

2004-05-18

Hightower, P. Hampton (Department: 1711)

Synthetic resins or natural rubbers -- part of the class 520 ser

Synthetic resins

From carboxylic acid or derivative thereof

C528S310000, C528S480000, C528S481000, C528S499000

Reexamination Certificate

active

06737499

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to the treatment of low-molecular compounds extracted from polyamide 6 or from copolyamides based on caprolactam and to a process for the production of polyamide 6 or copolyamides based on caprolactam.
SUMMARY OF THE INVENTION
A process for using low-molecular weight compounds that are water-extracted from (co)polyamides in the production of polyamide is disclosed. The process entails reacting these compounds with 10 to 15 wt. % water for a period of 3.5 to 6 hours at a temperature of 220° C. to 270° C., and polymerizing the resulting product along with caprolactam.
BACKGROUND OF THE INVENTION
Polyamides, their production and their use as industrial plastics are known. They are described, for example, in “Kunststoff-Handbuch” [Plastic Handbook] Volume 3, “Technische Thermoplaste” [Industrial Thermoplastics] Part 4, “Polyamides” “edited by G. W. Becker and D. Braun and published by Hanser-Verlag Munich and Vienna, 1998.
The present invention relates to polyamide 6 and copolyamides based on caprolactam. Polyamide 6 is the homopolymer of caprolactam. Copolyamides based on caprolactam according to the present invention are copolyamides, which contain at least 50 wt. % monomer units derived from caprolactam. These copolyamides based on caprolactam also contain other recurrent units bound by amide groups. These can, for example, be recurrent units, which are derived from adipic acid and hexamethylene diamine, in other words polyamide 6,6 units. They may also be other recurrent units, which derive from other dicarboxylic acids and other diamines. Or they may be recurrent units, which derive from aminocarboxylic acids, for example the recurrent units of polyamide 11 or polyamide 12.
Polyamide 6, or copolyamides based on caprolactam (hereinafter referred to as (co)polyamides), may be produced by various processes. They may be produced, for example, by hydrolytic polymerization of caprolactam. This is the main industrial process. It is also the process preferred according to the present invention. They may also be produced by alkaline lactam polymerization. The processes for the production of (co)polyamides are described, for example, on pages 22 to 75 of Vol. 3, “Industrial Thermoplastics”, Part 4 “Polyamides”, of the above-mentioned Plastic Handbook.
(Co)polyamides are normally produced by hydrolytic polymerization of caprolactam. If copolyamides based on caprolactam are to be produced, the required comonomers for this are added. The comonomers are preferably either mixtures of dicarboxylic acids and diamines or aminocarboxylic acids or lactams.
Hydrolytic polymerization, as described for example in Vol. 3 “Industrial Thermoplastics”, Part 4 “Polyamides” Chapter 2.2.2.2.4 of the abovementioned Plastic Handbook, generally occurs as polymerization under normal pressure, normally by the addition of 1 to 5 wt. % water at temperatures normally of 240 to 270° C., excluding atmospheric oxygen. It may be started with dehydrating compounds such as aminocarboxylic acid or AH salt (salt of adipic acid and hexamethylene diamine). It is normally started with water. Here the molecular weight of the polyamide is predetermined by the water content, but in practice it is usefully stabilised, for example by carboxylic acids or amines.
(Co)polyamides are normally produced continuously. This continuous production normally takes place in vertical tube reactors, (known as SC tubes (SC=simplified continuous)). The process is normally as follows: the aqueous caprolactam (optionally together with comonomers and optionally together with other auxiliary substances such as e.g. molecular weight regulators) is poured into the top of the SC tube. Excess water is distilled off here to achieve sufficiently high molecular weights. The melt thus obtained then normally flows through the tube for 15 to 30 hours at atmospheric pressure, being kept at a temperature normally of 240 to 270° C. At the end of the SC tube, the polyamide melt is extruded into a water bath through round-hole nozzles, using a gear pump for example, cooled and then granulated.
Low-molecular compounds form as a by-product of the production of (co)polyamides. These are, in particular, oligomeric compounds, which form from caprolactam and optionally also from the comonomers. These low-molecular compounds have a detrimental effect on the properties of the polyamide 6 or the copolyamides based on caprolactam and are therefore normally removed. In particular, the cyclic dimer of caprolactam has a detrimental effect on the properties of (co)polyamides.
The effect of the low-molecular portions is that products, such as e.g. injection-moulded bodies and similar, produced from the polyamides are detrimentally affected by the diffusion of the low-molecular portions on the surface, forming a greasy film. The low-molecular portions diffused on the surface also impair the surface appearance of the products produced from the polyamides. The gloss is reduced and the colour impression impaired.
The low-molecular compounds may be removed, for example, by extraction. Extraction is normally carried out with water or with liquids that contain mostly water.
After polymerization and subsequent extraction, the polyamide 6, or copolyamide based on caprolactam, obtained is normally dried. This is done, for example, at temperatures of 90 to 130° C. in an inert gas stream. Nitrogen, for example, may be used. By increasing the drying temperature, for example to 180 to 190° C., the molecular weight of the polyamide may be further increased for special applications by so-called secondary condensation.
Apparatus with multi-stage SC tubes may also be used instead of the single-stage SC tube disclosed above.
For economic reasons it is desirable, and also known in the prior art, to return the low-molecular compounds extracted from the polyamide to the process for the production of (co)polyamides.
The water from extraction, charged with the low-molecular compounds, is normally reprocessed for this purpose. This may be done, for example, in such a way that the water, or at least the majority of the water, is removed by distillation. A mixture of caprolactam, its oligomers and other low-molecular compounds extracted from the polyamide then remains in the distillation sump. This mixture contains, in particular, a very high proportion of cyclic dimer of caprolactam.
This mixture may be reprocessed by various methods. The mixture may, for example, be polymerized discontinuously with further caprolactam in an autoclave. The mixture may also be added, in polymerization to polyamide 6 or to copolyamides based on caprolactam, to an SC tube for example.
The following is known on this subject:
U.S. Pat. No. 5,077,381 discloses a process for the hydrolysis of components extracted from polymerized caprolactam at temperatures of 220° C. to 290° C. and residence times of 2 to 6 hours in the presence of 20% water.
EP-A 0 608 454 discloses a similar process. EP-A 0 608 454 discloses a process for the depolymerization of polyamide 6 waste by hydrolysis, a temperature of 280° C., a residence time of 3 hours and an overpressure, determined by the water content, of 8.5 bar being preferred.
The disadvantage of the processes known from the prior art is, in particular, that the cyclic dimer of caprolactam polymerizes into the polyamide only very slowly. As a consequence of this, (co)polyamides, that are obtained by adding a certain proportion of the concentrated extract from polyamide production along with caprolactam and optionally comonomers during their polymerization, have a higher proportion of low-molecular compounds, in particular a higher proportion of cyclic dimers of caprolactam, when they leave the polymerization stage than is the case with polyamides, to which no proportion of concentrated extract from polyamide production is added for polymerization.
DETAILED DESCRIPTION OF THE INVENTION
Accordingly the object of the present invention is to provide a process for polymerizing concentrated extract of (co)polyamides,

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