THERMOSTABILITY OF POLYSTYRENE BY STYRYLQUINOLINE CONTAINING METHACRYLATES

O. Kharchenko, V. Smokal, O. Krupka, A. Kolendo
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Abstract

It's known that polystyrene is one of the most widely used plastics. The materials based on it are used in almost all branches of engineering and human's daily life. Therefore, the creation of new highly effective thermal stabilizers for polystyrene remains as the actual task of polymer chemistry. Combining fragments of basic industrial monomer with the modifiers in the polymer matrix provides the ability to control performance properties of obtained materials. Investigation of thermostabilitive action of new styrylquinoline containing methacrylic monomers on polystyrene have been described in this work. Polystyrene and copolymers based on styrene and new methacrylic styrylquinoline containing monomers were synthesized by free radical thermoinitiated polymerization. 2,2´-Azo-bisisobutyronitrile (1 mass per cent) was used as initiator. Styrylquinoline monomers (3 mol per cent) were added to styrene for making modified samples. Polymerization was carried out by heating of reactants in ethyl acetate during 16 hours. Polymers were precipitated in isopropanol and dried at vacuum. The impact of such dopants – 2-[2-(4-methoxyphenyl)ethenyl]quinolin-8-yl 2-methylpropyl-2-enoate (М1), 2-(2-phenylethenyl)quinolin-8-yl 2-methylpropyl-2-enoate (М2), 2-[2-(4-nitrophenyl)ethenyl]quinolin-8-yl 2-methylpropyl-2-enoate (М3) were investigated. Thermostability of polystyrene and modified samples styrene:M1, styrene:M2, styrene:M3 were studied by dynamic thermograviametric analysis. It was shown that destruction of polystyrene with dopants M1-M2 starts at 41–42°С higher than reference polystyrene prepared at the same conditions and polystyrene of brand STYRONE (Switzerland). Sample with dopant M3 begins destruction with lower speed than reference polystyrene. First one loses 20% of weight at 347°С while reference polystyrene loses 50% of weight. It means, that dopant M3 can act as retarder of thermal destruction of polystyrene. It was found that new monomers have thermal stabilizing effect after its covalent introducing and can act as effective inhibitors of thermodestruction of polystyrene in the air.
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含甲基丙烯酸甲酯的苯乙烯基喹啉对聚苯乙烯热稳定性的影响
众所周知,聚苯乙烯是使用最广泛的塑料之一。以它为基础的材料几乎被用于工程和人类日常生活的所有部门。因此,为聚苯乙烯创造新的高效热稳定剂仍然是聚合物化学的实际任务。将基本工业单体的片段与聚合物基体中的改性剂相结合,提供了控制所得材料性能的能力。本文研究了新型苯基喹啉类含甲基丙烯酸单体对聚苯乙烯的热稳定作用。采用自由基热引发聚合法制备了聚苯乙烯及以苯乙烯为基料的新型甲基丙烯酸基苯乙烯喹啉单体共聚物。以2,2′-偶氮-二异丁腈(1质量%)为引发剂。苯乙烯中加入苯乙烯基喹啉单体(3mol / l)制备改性样品。聚合是通过在乙酸乙酯中加热反应物16小时进行的。聚合物在异丙醇中沉淀,真空干燥。考察了2-[2-(4-甲氧基苯基)乙烯基]喹啉-8-基2-甲基丙基-2-烯酸酯(М1)、2-(2-苯基乙烯基)喹啉-8-基2-甲基丙基-2-烯酸酯(М2)、2-[2-(4-硝基苯基)乙烯基]喹啉-8-基2-甲基丙基-2-烯酸酯(М3)等掺杂剂的影响。采用动态热重分析方法研究了聚苯乙烯及其改性样品苯乙烯:M1、苯乙烯:M2、苯乙烯:M3的热稳定性。结果表明,掺杂剂M1-M2对聚苯乙烯的破坏起始温度为41-42°С,高于同等条件下制备的参考聚苯乙烯和瑞士STYRONE品牌聚苯乙烯。掺杂M3的样品开始破坏的速度比参考聚苯乙烯慢。第一个在347°С时失去20%的重量,而参考聚苯乙烯失去50%的重量。这意味着,掺杂剂M3可以作为聚苯乙烯热破坏的缓凝剂。发现新单体共价引入后具有热稳定作用,能有效抑制聚苯乙烯在空气中的热破坏。
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