DE959497C - Process for the production of thermoplastics - Google Patents

Description

Process for the production of thermoplastics It is known thermoplastics by transesterification of dialkyl carbonates with glycols to manufacture. The products thus obtained have due to their low softening point has no technical significance.

It is also known to react with bis-chloroformic acid esters of glycols with polyfunctional phenols or by converting bis-chloroformic acid esters to produce polycarbonates from polyfunctional phenols with glycols. You get so oily to resinous products, their use as plasticizers or Binder has been proposed.

Furthermore, polycarbonates were converted into polyfunctional ones Phenols that carry several OH groups on an aromatic nucleus, e.g. B. hydroquinone and resorcinol, made with phosgene. The polycarbonates obtained in this way however, they are insoluble in common solvents and decompose their melting temperatures.

The products manufactured according to the processes described have has no practical significance due to their properties as plastics.

According to the German patent application F 13040 IVb / 39c one obtains technically high quality thermoplastics through conversion of dimonooxyaryl alkanes in polycarbonates.

It has now been found that soluble in organic solvents, thermoplastic, melting at higher temperatures without decomposition Polyester plastics with valuable technical properties due to the conversion of dioxy compounds in high molecular weight polycarbonates in a relatively short reaction time can be obtained by using di-monooxyaryl-alkanes with phosgene or with bis-chlorocarbonic acid esters of di-monooxyaryl-alkanes in aqueous alkaline solution or suspension with addition small amounts of quaternary ammonium compounds in the form of the free bases or as Salts, advantageously in the presence of inert organic solvents, reacted.

Both aryl radicals can be used in the di-monooxyaryl-alkanes be the same or different. Furthermore, the aryl radicals can carry substituents, which are unable to react when converted to polycarbonates, such as halogen or alkyl groups, e.g. B. the methyl, ethyl, propyl or tert-butyl group. Of the the alkyl radical of the di-monooxyaryl-alkane connecting the two benzene rings can be both consist of an open chain as well as a cycloaliphatic ring and optionally substituted by an aryl radical.

As examples of di-monooxyaryl-alkanes of the type indicated like (4,4'-Dioxy-diphenyl) methane, 2,2 - (4,4'-Dioxy-diphenyl-propane, I, I. - (4., 4. '- Dioxy - diphenyl) - cyclohexane, I, I- (4,4 -D ioxy -3, 3'-dimethyl-diphenyl-cyclohexane, 2, 2- (2, 2'-dioxy-4, 4'-di-tert-butyl-diphenyl) -propane, 3, 4- (4, 4 @ -dioxy-diphenyl) -hexane and I, I- (4.4 -Dioxy-diphenyl) -i-phenyl-ethane, also methane derivatives, which apart from two oxyaryl groups also have an alkyl radical with at least two and one carry second alkyl radical with one or more carbon atoms, z. B. 2, 2- (4, q .'-Dioxy-diphenyl) -butane, 2, 2- (4, 4'-dioxydiphenyl) - pentane, 3, 3 - (4, 4 '- Dioxy-diphenyl) pentane, 2, 2- (4, 4'-Dioxy-diphenyl) -3-methyl-butane, 2, 2- (4, 4'-D.ioxy-diphenyl) -hexane, 2, 2- (4, 4'-dioxydiphenyl) -4-methyl-pentane, 2, 2- (4, 4'-dioxy-diphenyl) -heptane, 4, 4- (4, 4'-dioxy-diphenyl) -heptane and 2, 2- (4, 4-dioxy-diphenyl) -tridecane. These compounds can be formed by condensation of aldehydes or ketones with phenols can be easily produced in a known manner.

Mixtures of different dimonooxyaryl alkanes can also be used to achieve this special properties are used.

As quaternary ammonium compounds to be added according to the invention may be mentioned: tetramethylammonium hydroxide, triethyloctadecylammonium chloride, trimethylbenzylammonium fluoride, Triethylbenzylammonium chloride, dimethyldodecylammonium chloride, dimethylbenzylphenylammonium chloride, Trimethylcyclohexylammonium bromide and N-methylpyridinium chloride.

The addition of these quaternary ammonium compounds accelerates the Condensation reaction, so that high molecular weight products are usually already within can get about 1/2 to 2 hours. If you are in the presence, inert orgaschen Solvents that are only slightly or not at all miscible with water works, the ammonium compounds generally also reduce the risk of gelling of the polycarbonates dissolved in the solvents is reduced. To these effects To bring about, amounts of about 0.05 to about 5 percent by weight are generally sufficient the ammonium compounds, based on the amount of di-monooxyaryl-alkanes used. The ammonium compounds can be added to the mixtures before or during the reaction.

If one works without the addition of organic solvents, then fall the polycarbonates during their formation from the aqueous solution in the form of powders the end. In general, however, it is advantageous to use organic solvents in which the polycarbonates formed dissolve, to be added to the reaction mixture. Therefor are suitable e.g. B. hydrocarbons such as benzene, toluene and xylene, as well as chlorinated ones Hydrocarbons such as methylene chloride and chloroform.

In general, it is also advantageous to use a small amount of one Adding reducing agents such as sodium dithionite or free phenol.

The polycarbonates produced according to the invention are thermoplastic, elastic plastics, their softening point or melting point and their physical Properties strongly depend on the type of di-monooxyaryl alkane used. They are in a number of organic solvents, such as methylene chloride, chloroform, Pyridine, some also in aromatic hydrocarbons, such as benzene, and toluene o-, m- and p-xylene, and in esters, such as ethyl or butyl acetate, and ketones, such as Acetone, soluble and can be transformed from solutions into deformed bodies, such as films and fibers, are processed. They can be melted without decomposition and can therefore pass through Pressing, spraying, flame spraying processed into valuable molded bodies or coatings will.

Surprisingly, according to the present process, particularly when using 4,4'-di-monooxyaryl-alkanes, such as 4,4'-dioxydiphenyl-methane and 2, 2- (4, q .'-dioxy-diphenyl) -propane or I, I- (4, 4'-dioxy-diphenyl) -cyclohexane, crystallizable, linear polycarbonates that make films and fibers from the melt or can be produced from the solution, which can be oriented by stretching are. The stretching process significantly increases the strength of these products, while the elongation is decreased.

The polycarbonates produced according to the invention can also be used in conjunction with plasticizers such as tricresyl phosphate or fillers such as asbestos and glass fibers, are processed.

Example I Into a mixture of 137.5 parts by weight of 2, 2- (4, 4'-dioxy-diphenyl) propane, 70o by weight of water, 33o parts by weight methylene chloride 68.5 parts by weight of sodium hydroxide is passed under stirring at 251 in 120 minutes 71 , 5 parts by weight of phosgene. Then 3 parts by weight of triethylbenzylammonium chloride are added. 30 to 40 minutes after the addition, the organic solution, initially distributed in the form of fine droplets in the alkaline aqueous solution, converges to form a viscous fig which, after working up, results in a high molecular weight polycarbonate.

Example 2 In a mixture of 137.5 parts by weight of 2, 2- (4, 4'-dioxy-diphenyl) propane, 700 parts of water, 100 parts by weight of methylene chloride, 68.5 parts by weight Sodium hydroxide and 4 parts by weight of dimethylphenylbenzylammonium chloride conducts one in 2 hours with stirring at 25 ° 7i, 5 parts by weight of phosgene. One stirs another hour at 25 °. The granular reaction product results after washing and drying a high molecular weight, technically useful polycarbonate.

Example 3 In a mixture of 68.8 parts by weight of 2,2- (4,4'-dioxy-diphenyl) -propane, 81 parts by weight of 4,4'-dioxydiphenyl-i, i-cyclohexane, 70o parts of water, 33o parts by weight Methylene chloride, 68.5 parts by weight of sodium hydroxide, 71.5 parts by weight of phosgene are passed in at 25 ° with stirring in the course of 12 minutes. 3 g of triethylbenzylammonium chloride are added. After 30 minutes, the organic layer converges to form a highly viscous dough which, after working up, gives a high molecular weight polycarbonate with useful properties. Example 4 In a mixture of iio, i parts by weight of 2, 2- (4, 4'-dioxy-diphenyl) -propane, ^ 4, i parts by weight of 4,4'-dioxy-diphenyl-methane, 600 parts of water, 600 parts by weight of methylene chloride 68.5 parts by weight of sodium hydroxide and 0.1 parts by weight of sodium dithionite are passed in 71.5 parts by weight of phosgene with stirring at 25 ° in 2 hours. 3 parts by weight of triethylbenzylammonium chloride are added. After stirring for another hour, the organic solution becomes highly viscous and, after working up, gives a high molecular weight polycarbonate.

Claims (2)

PATENT CLAIMS: i. Process for the production of thermoplastics by converting dimonooxyaryl-alkanes into macromolecular Polyca.rbonate, characterized in that di-monooxyaryl-alkanes in aqueous alkaline solution or suspension with phosgene or with bis-chlorocarbonic acid esters of di-nionooxyaryl-alkanes with the addition of small amounts quaternary ammonium compounds in the form of the free bases or as salts and optionally in the presence of inert organic solvents. 2. The method according to claim i, characterized in that the reaction mixture is added Adding reducing agent.