TH30047A - ABS high gloss thermoplastic molding compound - Google Patents

Abstract

DC60 (11/19/49) Thermoplastic molding compound containing at least one (I) grafted polymer. Which is obtained by emulsifying polymerization of the monomer That formed a resin In the presence of mixtures consisting of butadiene (A) polymers latex with a pass The d50 particle center is less than or equal to 320 nm, the particle diameter distribution width is 30 to 100 nm, and the gel content is less than or equal to 70% by weight and latex of the butadiene polymer ( B) Where d50 is greater than or equal to 370 nm, the particle diameter distribution width is 50 to 500 nm, and the gel content is greater than or equal to 70% by weight II). At least one type of graft That can be obtained by emulsifying polymerization in the latex state of butadiene (C) polymers with particle diameter d50 from 110 to 150 nm. The particle diameter distribution width is 20 to 50 nm, and the gel content ranges from 80 to 98% by weight III) one or more rubber-free copolymers consisting of resin-forming monomers. And the use of these substances in the manufacture of molded parts A thermoplastic mold-forming mixture containing at least one (I) grafted polymer. Which is obtained by emulsifying polymerization of the monomer That formed a resin In the presence of mixtures consisting of butadiene polymer (A) latex with a particle diameter d50 less than or equal to 320 nm, the particle diameter distribution width is 30 to 100 nanometers. M, and the gel content is less than or equal to 70% by weight and the latex of the butadiene (B) polymers with particle diameter d50 greater than or equal to 370 nm. The particle diameter distribution is 50 to 500 nm and the gel content is greater than or equal to 70% by weight II) at least one grafted polymer. That can be obtained by emulsifying polymerization in the latex state of butadiene (C) polymers with particle diameter d50 from 110 to 150 nm. The particle diameter distribution width is 20 to 50 nm, and the gel content ranges from 80 to 98% by weight III) one or more rubber-free copolymers consisting of resin-forming monomers. And the use of these substances in the manufacture of molded parts

Claims (6)

1. One or more thermoplastic ABS type molded mixes with I) grafted polymers. Which was obtained by polymerization of styrene emulsion And acrylonitrile in the ratio 90:10 to 50:50 by weight, with styrene and / or acrylonitrile which All replaced Or some too Alpha-methyl styrene Methylmethacrylate or N-phenyl maleimide in a mixed state consisting of a butadiene (A) polymer latex with a particle diameter d50 less than or equal to 320 nm, width of particle diameter distribution (measured as d90 - d10 from the diameter distribution The unified particle center) is 30 to 100 nm and the gel content is less than or equal to 70%, and the butadiene polymer (B) latex with a particle diameter d50 greater than or equal to 370 nm. The width of the particle diameter distribution (measured as d90 - d10 from the unified particle diameter distribution) is 50 to 500 nm, and the gel content is greater than or equal to 70% by the latex weight of the polymer bis. Vadadiene, each part contains vinyl. 0 to 50% additional monomers by weight that can be copolymerized. And the mass ratio of the monomers Graft applied to butadiene polymers used from 25:75 to 70:30 II) At least one grafted polymer. Which was obtained by polymerization of styrene emulsion And acrylonitrile at a ratio of 90:10 to 50:50 by wt. Styrene and / or acrylonitrile were Replace all Or some too Alpha-methyl styrene Methylmethacrylate or N-phenyl maleimide in the latex state of butadiene (C) polymers with particle diameter d50 from 110 to 150 nm, width Of the particle diameter distribution (measured as d90 - d10 from the particle diameter distribution Combined into one) is 20 to 50 nm, and the gel content is from 80 to 90%. The latex of the butadiene polymer. With additional vinyl monomer 0 to 50% by weight that can be copolymerized And the mass ratio of mono Grafted polymers used against butadiene polymers used from 30:70 to 60:40 and III) at least one rubber-free copolymer of styrene. A And acrylonitrile at a ratio of 90:10 to 50:50, with all the styrene and / or acrylonitrile weight replaced. Or some too Alpha-Methyl Styrene, Methyl-Methacrylate, or N-Phenyl Maleimide 2. The thermoplastic mold-forming compound according to claim 1 where grafted polymer I) can be prepared by adding a monomer to the polymer latex mix. The butadiene (A) and (B) methods were added to 55 to 90% monomer by weight within the first half of the monomer loading period. 3. One or more thermoplastic ABS type molded mixers with I) grafted polymers. Which was obtained by polymerization of styrene emulsion And acrylonitrile at a ratio of 90:10 to 50:50, with styrene and / or acrylonitrile weight being replaced wholly or partly. Alpha-methyl styrene Methylmethacrylate or N-phenyl maleimide in the presence of a latex mixture of butadiene (A) polymers with particle diameter d50 from 260 to 310 nanometers. M. The particle diameter distribution width (measured as d90 - d10 from the unified particle diameter distribution) is 40 to 80 nm and gel content ranging from 40 to 65% by weight and polymer latex. Orbutadiene (B) with particle diameter d50 from 380 to 450 nm. Width of particle diameter distribution (measured as d90 - d10 from total particle diameter distribution). Is one) is 100 to 400 nm and gel content is 75 to 90% by weight of the polymer latex. Each butadiene contains an additional 0 to 50% vinyl monomer by weight that can be copolymerized and the mass fraction of the grafted monomer per poly. Butadiene meridians used from 25:75 to 70:30 II) at least one graphite polymer. Which was obtained by polymerization of styrene emulsion And acrylonitrile ratio 90:10 to 50:50 by wt. Styrene and / or acrylonitrile were Replace all Or some too Alpha-methyl styrene Methylmethacrylate or N-phenyl maleimide in the latex state of butadiene (C) polymers with particle diameter d50 from 120 to 140 nm, width. Of the particle diameter distribution (measured as d90 - d10 from the particle diameter distribution Combined into one) is 25 to 45 nm, and the gel content is from 85 to 90%. The latex of the butadiene polymer. With additional vinyl monomer 0 to 50% by weight that can be copolymerized And the mass ratio of Grafted monomers to butadiene polymers used from 30:70 to 60:40 III), rubber-free copolymers of styrene. And acrylonitrile at a ratio of 90:10 to 50:50 by weight, styrene and / or acrylonitrile were all replaced. Or some too Alpha-methyl styrene Methylmethacrylate or N-Phenyl Maleimide 4. The thermoplastic mold-forming compound according to claim 3 where grafted polymer I) can be prepared. By adding the monomer to the latex mixtures of butadiene (A) and (B) polymers, in a method of adding 60 to 80% monomers by weight within the first half. Of the time wearing this monomer 5.Thermoplastic mold-forming compound According to claim 1 also includes At least one resin A type selected from a group that contains Aromatic polycarbonate, aromatic polyester carbonate, polyester and polyamide 6. The mold is prepared from a thermoplastic molding compound. According to claim 1