Thermoplastic mouldable composition
专利摘要:
Thermoplastic compositions moldable to articles of high impact strength are disclosed which comprise an intimate admixture of a polyphenylene ether resin, a styrene resin, and a radial teleblock copolymer comprising a vinyl aromatic compound, a saturated rubber, and a coupling agent. Also included within the scope of this invention are reinforced and flame-retardant compositions of said thermoplastic materials. 公开号:SU865130A3 申请号:SU772554603 申请日:1977-12-19 公开日:1981-09-15 发明作者:Фан Ли Джим (Младший);Филип Шанк Чарльз 申请人:Дженерал Электрик Компани (Инофирма); IPC主号:
专利说明:
one This invention relates to polyether compositions, namely thermoplastic molding compositions based on polyphenylene ether resins, and can be used in the chemical industry. Known thermoplastic molding composition based on a mixture of polyphenylene ether resins and various fillers, dyes G13 . The disadvantage of this composition is relatively low physical and mechanical properties, in particular, impact resistance. Closest to the proposed invention in technical terms is a thermoplastic molding composition containing a poly (2, b-dimethyl-1, 4-phenylene) ether and a polystyrene resin selected from the group consisting of polystyrene and modified with butadiene rubber polystyrene C23. The disadvantage of this composition is also relatively low impact resistance. The purpose of the invention is to increase the impact strength of the composition. The goal is achieved by the thermoplastic molding composition. containing poly (2, b-dimethyl-1, 4-phenylene) ether and a polystyrene resin selected from the group consisting of polystyrene and polystyrene modified with butadiene rubber, further contains a hydrogenated radial teloblochny block copolymer of styrene and butadiene in the following ratio of components , weight: 10 Poly- (2, b-dimethyl-1,4phenylene) ether 5.0-55 Polystyrene resin 30-42 Hydrogenated radial teloblok block15 copolymer8-15 Preferred styrene resins are homopolystyrene and rubber-modified polystyrene resins with high impact strength, t . resins that are modified with natural or synthetic polymeric materials that conduct themselves as elastomers at room temperature (for example, 20-25 seconds), 25 in particular polystyrene resins containing polybutadiene or rubbery styrene-butadiene copolymers. A suitable polystyrene with a high impact strength is 30 FG-834, manufactured by Fostergrant Co., which is a rubber-modified high impact polystyrene containing approximately 8% polybutadiene rubber. A preferred low molecular weight homopolystyrene is KPTL-5 product, which is commercially available from Arco Polymer, Inc., with an average molecular weight of approximately 40,000. Preferred homopolystyrene with a relatively high molecular weight is DYL-8G, The average MS medical weight is about iso 000, also produced by Arco. Radial teleblock block copolymers are technically available products. They are obtained by copolymerization with styrene in the presence of an organometallic initiator, such as n-butylity, to produce copolymers that contain an active metallic atom, in particular lithium, at one end of each of the polymer chains. These polymers with metal atoms at the ends of the molecules are then used to react with a coupling reaction agent, the molecules of which contain at least three active sites that are suitable for reacting with the carbon-metal atom in the polymer chains and replacing the metal atoms of the chains. This leads to the formation of polymers that have relatively long branches, which come in the form of beams from the ring formed by the polyfunctional coupling agent. Combination reaction agents for radial teleblock copolymers can be selected from the class of polyepoxides, polyisocyanates, polyimines, polyaldehydes, polyketones, polyesters polyanhydrides, polyhalides etc. The hydrogenation of radial teleblock block copolymers to produce hydrogenated radial teleblock block copolymers can be carried out by any known method. The molecular weight of the hydrogenated radial teleblock block copolymer and the quantitative ratios between its comonomers can vary over a wide range. In preferred embodiments, the molecular weight of the hydrogenated radial teleblock copolymer is in the range of about 75,000 to 350,000, it contains 1 to 45 wt.% Of the vinyl aromatic units and 99 to 55 in. % saturated rubber in terms of the weight amount of the radial teleblock copolymer. The amount of coupling agent in the copolymer depends on the specific agent used and the amount of organometallic initiator. I usually use relatively small amounts of a combination agent, e.g. 0.1-1 wt. hours for every 100 weight.h. used resin. The proposed compositions may include other components, in particular, flame retardants, fillers, substances to improve the technological properties of pigments, stabilizers and other agents added for the same purpose. It is possible to use reinforcing fillers in an amount sufficient to impart an improvement in the strength properties, in particular aluminum, iron, nickel, etc., as well as non-metallic reinforcing agents, in particular carbon fiber, silicates, in particular calcium needle silicate, asbestos, dioxide titanium, potassium titanate and titanate filamentous crystals, glass flakes, glass fibers, and the like. Flame retardant compositions that contain flame retardant additives belonging to the class of halogenated organic compounds in mixture with antimony compounds, elemental phosphorus or phosphorus compounds, or compounds in molecules that have phosphorus-nitrogen bonds, are also proposed. or a mixture of two or more of the above components.
权利要求:
Claims (2) [1] 1. Patent of Great Britain No. 930993, cl. 2 (5) R, pub. 1963. [2] 2. US patent 3383435, cl. 260-874, published. 1968 (prototype). ;
类似技术:
公开号 | 公开日 | 专利标题 EP0209874B1|1990-10-24|Hydrogenated block copolymer compositions US4732928A|1988-03-22|Highly elastic thermoplastic elastomer composition US4304881A|1981-12-08|Alkenyl aromatic resin composition having an excellent impact strength US5326813A|1994-07-05|Thermoplastic resin composition containing a modified polyphenylene ether AU659724B2|1995-05-25|Engineering resin-propylene polymer graft composition SU865130A3|1981-09-15|Thermoplastic mouldable composition US5047465A|1991-09-10|Impact modified polyphenylene sulfide US4113800A|1978-09-12|High impact polyphenylene ether resin compositions that include A-B-A block copolymers RU2022980C1|1994-11-15|Composition US6509412B1|2003-01-21|Soft gel compatibilized polymer compound for high temperature use FR2467228A1|1981-04-17|THERMOPLASTIC MOLDING COMPOSITION BASED ON POLY | US3887646A|1975-06-03|Resinous compositions containing polyphenylene ether, styrene rubber and rubber-modified chlorostyrene polymer US3929931A|1975-12-30|Graft copolymer of styrene type compound and a polyphenylene ether WO2002068532A1|2002-09-06|Flame retardant syndiotactic polystyrene resin composition EP0714951B1|1998-07-29|Flame retardant polyamide polyphenylene ether compositions CA1210178A|1986-08-19|IMPACT RESISTANT .alpha.-METHYLSTYRENE-STYRENE COPOLYMERBLENDS US4309514A|1982-01-05|Molding compositions comprising polyphenylene ether and hydrogenated radial block copolymer of vinyl aromatic compound and diene rubber EP0649873B1|1997-02-12|Oil-resistant resin composition JPH0551494A|1993-03-02|Polyolefin composition JP3386612B2|2003-03-17|Thermoplastic resin composition JP3523353B2|2004-04-26|Thermoplastic resin composition JP3413999B2|2003-06-09|Thermoplastic polymer composition SK66093A3|1994-05-11|Thermoplastic composition based on polyphenylene ether and polyamide JP3676002B2|2005-07-27|Thermoplastic resin composition JPH064760B2|1994-01-19|Polyamide-containing impact-resistant resin composition
同族专利:
公开号 | 公开日 FR2374378A1|1978-07-13| MX146397A|1982-06-23| FR2374378B1|1983-10-28| DE2750242A1|1978-06-22| AU3170277A|1979-06-28| GB1559052A|1980-01-16| CA1119742A|1982-03-09| NL7712660A|1978-06-22| DD133962A5|1979-01-31| JPS5394540A|1978-08-18| DE2750242C2|1989-02-09| BR7708529A|1978-08-08| IT1088289B|1985-06-10| AU513181B2|1980-11-20|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题 US3281383A|1962-08-09|1966-10-25|Phillips Petroleum Co|Branched polymers prepared from monolithium-terminated polymers and compounds having at least three reactive sites| US3696088A|1970-09-11|1972-10-03|Phillips Petroleum Co|Hydrogenation process| JPS4830151A|1971-08-21|1973-04-20| DE2434848C2|1973-08-13|1986-09-04|General Electric Co., Schenectady, N.Y.|Thermoplastic mass|JPS6247221B2|1979-05-01|1987-10-07|Asahi Chemical Ind| NL8005597A|1979-10-15|1981-04-21|Gen Electric|MIXTURES OF POLYPHENYLENE OXIDE AND SOFTENER.| US4309514A|1979-11-30|1982-01-05|General Electric Company|Molding compositions comprising polyphenylene ether and hydrogenated radial block copolymer of vinyl aromatic compound and diene rubber| US4313864A|1980-01-21|1982-02-02|General Electric Company|Polyphenylene oxide/plasticizer/hydrogenated radial teleblock copolymer blends| JPS6258286B2|1980-06-06|1987-12-04|Asahi Chemical Ind| US4423189A|1981-10-28|1983-12-27|General Electric Company|Compositions of a polyphenylene ether resin, low molecular weight polystyrene and a block copolymer| US4383082A|1981-12-01|1983-05-10|General Electric Company|Polyphenylene ether resin compositions containing polyolefin in high amount| DE3219048A1|1982-05-21|1983-11-24|Basf Ag, 6700 Ludwigshafen|THERMOPLASTIC MOLDS| DE3434978A1|1984-09-24|1986-04-03|Basf Ag, 6700 Ludwigshafen|THERMOPLASTIC MOLDS| EP0299499B1|1987-07-16|1994-09-21|Asahi Kasei Kogyo Kabushiki Kaisha|Specific hydrogenated block copolymer composition and process for producing the same| US5234994A|1988-11-01|1993-08-10|Asani Kasei Kogyo Kabushiki Kaisha|Thermoplastic polymer composition| EP0476366A3|1990-09-18|1992-09-30|General Electric Company|Polyphenylene ether compositions of improved melt strength|
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申请号 | 申请日 | 专利标题 US75202476A| true| 1976-12-20|1976-12-20| 相关专利
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