Influence of Modification on the ABS Plastics Using Atmospheric UV Irradiation as Plating Pretreatment

Yukihiro Nakabayashi, Y. Umeda, K. Tashiro, H. Honma, H. Kozai
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Abstract

Plating on the plastic is one of the important technologies to decorate exterior automotive parts and electronic devices. Conventionally, etching solution contained carcinogen hexavalent chromium obtained high adhesion strength between metal film and plastic surface to decorative the plating. On the other hand, health damage and environmental pollution from waste etching solution are occurring. For the above reasons, development of chromium free pretreatment is an urgent problem to solve this issue. In this study, we concentrated the environmentally friendly surface modification process in which atmospheric UV treatment was used to investigate effect of surface morphology and state on the ABS (acrylonitrile butadiene styrene) plastic. As a result, morphology of ABS surface was kept smooth after UV irradiation treatment. The conversion from hydrophobic to hydrophilic on the ABS surface state was confirmed by contact angle test and FT-IR spectra. Moreover, it was confirmed that appropriate amount of oxidation was necessary for metal plating on the ABS plastic, in order to obtain high adhesion strength between metal film and plastics surface.
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常压紫外光辐照对ABS塑料电镀前改性的影响
塑料表面电镀是装饰汽车外饰件和电子器件的重要技术之一。传统的刻蚀液中含有致癌物六价铬,可以在金属薄膜和塑料表面之间获得较高的附着力来装饰镀层。另一方面,废蚀刻液对健康的损害和环境的污染也在不断发生。因此,发展无铬预处理技术是解决这一问题的迫切需要。在本研究中,我们集中研究了环境友好型表面改性工艺,利用常压紫外处理研究了表面形貌和状态对ABS(丙烯腈-丁二烯-苯乙烯)塑料的影响。结果表明,紫外线照射后ABS表面形貌保持光滑。通过接触角测试和红外光谱分析,证实了ABS表面由疏水性向亲水性的转变。此外,还证实了在ABS塑料上镀金属需要进行适量的氧化处理,以获得较高的金属膜与塑料表面的结合强度。
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