DE1190182B - Thermoplastic molding compounds containing polycarbonates - Google Patents

Description

Thermoplastic molding compositions that contain polycarbonates object an older invention are thermoplastic molding compounds on the polycarbonates dihydric phenols with carbonic acid ester groups directly bonded to the aromatic rings and an organopolysiloxane in an amount of 0.1 to 20 percent by weight on the amount of polycarbonate. With the addition of organopolysiloxane achieve better physical and chemical properties of the polycarbonate molding compound.

It is already known to use organopolysiloxanes as lubricants, when thermoplastic synthetic fibers at high speed through nozzles, eyes and other governing bodies must be led in which they warm up. Farther it is known to add plasticizers to polycarbonates in order to improve the softness, flexibility, To improve the ductility and machinability of the polycarbonate.

Polycarbonate molding compounds containing organopolysiloxanes as plasticizers, now have a cloudy, milky white appearance. However, it has now been unexpectedly found that films and threads can be produced from the molding compositions according to the invention permit. which are clear and transparent as well as free of internal inclusions and surface defects like bubbles. Craters are.

The subject of the invention are therefore thermoplastic molding compositions that Polycarbonates of dihydric phenols with directly bound to the aromatic rings Contain carbonate groups and organopolysiloxanes. The masses are characterized by that they are based on an organopolysiloxane in an amount of up to 0.040 / 0 as an additive on the amount of polycarbonate.

Polycarbonates can be in a known manner by transesterification dihydric phenolic compound with a diaryl carbonate or by reacting one represent dihydric phenol with phosgene.

The organopolysiloxane can be added to the polycarbonate in any desired manner be e.g. B. by common precipitation, by dry or wet mixing with powders or grains or by simply adding to the solution. It is important, that the organopolysiloxane is uniformly distributed in the polycarbonate.

These are highly viscous masses or rubber-like, elastic, solid materials, depending on the degree of condensation, the condensation agent used and the starting organopolysiloxane for the rubbery material. A useful one rubbery organopolysiloxane is made by condensation of a liquid organopolysiloxane with an average of about 1.95, preferably about 1.98 to about 2.05, organic Groups per silicon atom obtained.

Example 1 A polycarbonate prepared from bisphenol-A different amounts of a liquid dimethylpolysiloxane were used as above described, added with a viscosity of 500 cSt. The addition of a siloxane to the polycarbonate was made in such a way that siloxane of a methylene chloride solution of the polycarbonate added.

Have coatings been cast from these materials that are 50, 100 or Containing 200, 400, and 1000 parts of siloxane per million parts, respectively, could be Pour such substances well on a clean glass surface. The films were flawless, d. H. they had no bubbles, depressions, holes or the like. At a concentration of siloxane of more than 400 parts per million, the film was not quite as clear but showed a slight obfuscation.

Example 2 Example 1 was repeated with the difference that 100 or 200 parts per million of a liquid dimethylpolysiloxane having a viscosity of 50 cSt were used. Coatings could easily be made from such a solution on a glass surface pour and the resulting coating was clear and free from physical inadequacies.

Example 3 Example 1 was repeated with the difference that a liquid, chlorinated methylphenylpolysiloxane in proportions of 100 or 200 parts per million was used. In this case too, the cast coatings were the applied to a glass surface, mostly clear and free of physical Impairments.

Example 4 Example 1 was repeated with the difference that a more viscous, liquid methylpolysiloxane with a viscosity of 30,000 cSt used in proportions of 50 or 100 or 200 or 400 or 1000 parts per million became. All of the coatings could easily be poured onto a glass surface. With a concentration from 50 parts per million the coating was clear and mostly physical free Shortcomings. At a concentration of 100 parts per million, similar ones became Properties achieved.

At a concentration of 200 parts per million the coating was evenly free from physical Inadequacies, but barely noticeable There was haze that affected the clarity of the film very little. This obfuscation increased at a concentration of 400 parts per million and even more noticeable at a concentration of 1000 parts per million, that of small bubbles or holes.

Claims (1)

Claim: Thermoplastic molding compounds, the polycarbonates are bivalent Phenols with carbonate groups directly bonded to the aromatic rings as well Containing organopolysiloxanes, characterized in that the molding compositions are used as an additive an organopolysiloxane in an amount up to 0.04-0.04%, based on the amount of polycarbonate, contain. Considered publications: German Patent Specifications No. 962 274, 971 790; N o 11, Chemistry and Technology of Silicones, Hainheim, 1960, p. 368 Older patents considered: German Patent No. 1 124 241.