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首页> 外文期刊>Plasma processes and polymers >Influence of the Configuration of the Plasma Chamber on the Surface Modification of Synthetic Vulcanized Rubber Treated with Low-pressure Oxygen RF Plasma
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Influence of the Configuration of the Plasma Chamber on the Surface Modification of Synthetic Vulcanized Rubber Treated with Low-pressure Oxygen RF Plasma

机译:等离子腔的构型对低压氧射频等离子体处理的合成硫化橡胶表面改性的影响

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Three different configurations of RF low-pressure oxygen plasmas were used to modify the surface of vulcanized styrene-butadiene rubber. Direct, etching and downstream oxygen plasma treatments of the rubber were carried out for length of treatment between 1 and 10 min. The oxygen plasma treated rubber surfaces were characterized by ethylene glycol contact angle measurements, ATR-IR and XPS spectroscopy and scanning electron microscopy (SEM). Adhesion of the oxygen plasma treated rubber to polyurethane adhesive was carried out by means of T-peel test and the loci of failure of the joints were characterized by means of ATR-IR spectroscopy. Three different oxygen plasma configurations obtained by changing the position of the rubber sample in the plasma chamber and by changing the shelves (power, ground, floating) were used to modify the extent of surface modification and the temperature reached on rubber surface. The direct oxygen plasma was the most aggressive treatment and the secondary downstream plasma the less one. The increase in the length of the oxygen plasma treatment allowed the most efficient removal of antiozonant paraffin wax from the as-received rubber. Furthermore, the oxygen plasma treatments created C-0 moieties on the rubber surface. On the other hand, only 1 min treatment time was sufficient to decrease noticeably the contact angle value on the rubber surface, irrespective of the oxygen plasma chamber configuration and the length of treatment. Oxygen plasma treatment caused surface oxidation and ablation on the rubber surface, as well as an increase of the temperature that also determined the extent of paraffin wax migration, the migration was favoured for temperature higher than 45 ℃. Finally, the migration of paraffin wax was produced for at least 24 h after oxygen plasma treatment and poor adhesion to polyurethane adhesive was obtained, due to the creation of a weak boundary layer of paraffin wax at the rubber-polyurethane interface. The migration of paraffin wax caused during plasma treatment was the dominant factor in decreasing the adhesion of rubber to polyurethane adhesive.
机译:RF低压氧等离子体的三种不同配置用于改性硫化丁苯橡胶的表面。对橡胶进行直接,蚀刻和下游氧等离子体处理,处理时间为1至10分钟。通过乙二醇接触角测量,ATR-IR和XPS光谱以及扫描电子显微镜(SEM)对经过氧等离子体处理的橡胶表面进行了表征。氧等离子体处理的橡胶与聚氨酯粘合剂的粘合通过T-剥离试验进行,接头的失效点通过ATR-IR光谱进行表征。通过改变等离子室中橡胶样品的位置并通过改变架子(电源,接地,浮动)获得的三种不同的氧等离子体构型,用于改变表面改性的程度和达到橡胶表面的温度。直接氧等离子体是最积极的治疗方法,次要下游等离子体则较少。氧等离子体处理时间的增加使得可以从所接收的橡胶中最有效地去除抗臭氧剂石蜡。此外,氧等离子体处理在橡胶表面上产生了C-0部分。另一方面,仅1分钟的处理时间就足以显着减小橡胶表面上的接触角值,而与氧等离子体室的构造和处理时间无关。氧等离子体处理导致橡胶表面的表面氧化和烧蚀,以及温度的升高也决定了石蜡的迁移程度,温度高于45℃时迁移是有利的。最后,由于在橡胶-聚氨酯界面处形成了较弱的石蜡边界层,氧等离子体处理后至少24 h产生了石蜡迁移,并且与聚氨酯粘合剂的粘合性较差。等离子处理过程中引起的石蜡迁移是降低橡胶与聚氨酯粘合剂粘合性的主要因素。

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