We describe here the first example of the synthesis of 4-arm star poly(acrylic acid) for use as a water-soluble drag reducing agent, by applying Cu(0)-mediated polymerization technique. High molecular weight 4-arm star poly(tert-butyl acrylate) (Mn = 3.0–9.0 × 105 g mol−1) was first synthesized using 4,4′-oxybis(3,3-bis(2-bromopropionate)butane as an initiator and a simple Cu(0)/TREN catalyst system. Then, 4-arm star poly(tert-butyl acrylate) were subjected to hydrolysis using trifluoroacetic acid resulting in water-soluble 4-arm star poly(acrylic acid). Drag reduction test rig analysis showed 4-arm star poly(acrylic acid) to be effective as a drag reducing agent with drag reduction of 24.3%. Moreover, 4-arm star poly(acrylic acid) exhibited superior mechanical stability when compared with a linear poly(acrylic acid) and commercially available drag reducing polymers; Praestol and poly(ethylene oxide). The linear poly(acrylic acid), Praestol, and poly(ethylene oxide) all showed a large decrease in drag reduction of 8–12% when cycled 30 times through the drag reduction test rig while, in contrast, 4-arm star poly(acrylic acid) demonstrated much higher mechanical stability.
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机译:我们在这里描述通过应用Cu(0)介导的聚合技术合成用作水溶性减阻剂的4臂星形聚丙烯酸的第一个例子。首先使用4,4'-氧双(3,3-双(2-溴丙酸酯)丁烷为原料,合成高分子量的4-臂星形聚丙烯酸叔丁酯(Mn = 3.0-9.0×105 g mol-1)引发剂和简单的Cu(0)/ TREN催化剂体系,然后使用三氟乙酸对4-臂星形聚丙烯酸叔丁酯进行水解,得到水溶性的4-臂星形聚丙烯酸。还原试验台分析表明,四臂星形聚丙烯酸是一种有效的减阻剂,减阻率为24.3%;此外,四臂星形聚丙烯酸比线型聚丙烯具有更好的机械稳定性。 (丙烯酸)和市售的减阻聚合物; Praestol和聚环氧乙烷;线性聚丙烯酸,Praestol和聚环氧乙烷在循环时都显示出大的减阻作用,降低了8–12%通过减阻试验台进行了30次试验,而相比之下,四臂星形聚丙烯酸具有更高的机械稳定性ty。
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