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    • 5. 发明授权
    • Phosphinimine modification of organic polymers and silicones
    • 有机聚合物和硅氧烷的磷腈改性
    • US06339166B1
    • 2002-01-15
    • US09850259
    • 2001-05-07
    • Harry R. AllcockThomas J. HartleMichael B. McIntoshNicolas J. SunderlandRobbyn PrangeJonathan P. Taylor
    • Harry R. AllcockThomas J. HartleMichael B. McIntoshNicolas J. SunderlandRobbyn PrangeJonathan P. Taylor
    • C07F708
    • C07F9/65815C08C19/22C08C19/24C08F8/30C08F8/40C08G77/395C08G77/42
    • Methods have been developed to produce phosphazene modified organic or siloxane polymers. The method includes (a) providing an organic or siloxane polymer comprising phosphine units, and (b) reacting the organic or siloxane polymer with a phosphazene azide compound under conditions wherein the phosphazene azide compound is bound to the phosphine unites in the polymer, thereby producing the phosphazene-modified organic or siloxane polymer. The organic polymer of step (a) is produced by reacting a first monomer comprising phosphine with a second monomer via free radical or anionic polymerization techniques to produce the organic polymer comprising phosphine units. The first and second monomers can be identical. A wide variety of organic polymer backbones can be modified using these techniques. The second monomer, for example, can be selected from monomers forming polyolefins, polydienes, polyacrylics, polyethylenes, polyvinyl chlorides, polyisoprenes, polystyrenes, polycaprolactam, poly(methyl)(meth)acrylates, and polypropylenes. Alternatively, the siloxane polymer of step (a) is produced by reacting a monomer comprising phosphine with a hydrosilicone polymer via hydrosilylation polymerization techniques to produce the siloxane polymer comprising phosphine units. These phosphazene modified organic and siloxane polymers are useful in a variety of applications, particularly as a fire retardant material.
    • 已经开发了制备磷腈改性的有机或硅氧烷聚合物的方法。 该方法包括(a)提供包含磷化氢单元的有机或硅氧烷聚合物,和(b)在叠氮化磷化合物与聚合物中的膦化合物结合的条件下使有机或硅氧烷聚合物与叠氮化磷化合物反应,从而产生 磷腈改性的有机或硅氧烷聚合物。 通过自由基或阴离子聚合技术使包含膦的第一单体与第二单体反应制备步骤(a)的有机聚合物,以制备包含磷化氢单元的有机聚合物。 第一和第二单体可以相同。 使用这些技术可以改变各种各样的有机聚合物主链。 例如,第二单体可以选自形成聚烯烃,聚二烯,聚丙烯酸,聚乙烯,聚氯乙烯,聚异戊二烯,聚苯乙烯,聚己内酰胺,聚(甲基)(甲基)丙烯酸酯和聚丙烯的单体。 或者,步骤(a)的硅氧烷聚合物通过氢化硅烷化聚合技术使包含膦的单体与氢硅氧烷聚合物反应制备包含磷化氢单元的硅氧烷聚合物来制备。 这些磷腈改性的有机和硅氧烷聚合物可用于各种应用,特别是作为阻燃材料。