Tratamento Superficial por Plasma em PVC Plastificado para Aplicações Decorativas por PVD

Scientia cum Industria Pub Date : 2021-10-25 DOI:10.18226/23185279.v9iss2p47

Eduardo Radaelli Pasqual, Márcio Ronaldo Farias Soares

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Abstract

The surface modification of polymeric materials has led to important advances for new industrial applications, allowing the replacement of engineering polymers by lower cost materials. In this context we study the surface modification of a polymeric material based on PVC-DEHP via N2O2 plasma treatment, applied to decorative metallization by physical vapor deposition (PVD). The ATR-FTIR analyzes did not reveal significant changes in the surface of the compound in addition to the presence of hydroxyls (3200-3500cm-1 ), and changes in the carbonyl region (1720cm-1 ) after exposure to plasma. On the other hand, AFM analyzes revealed that the surface roughness is increased, being constant (46.59 ± 9.51nm) above 240 seconds of plasma treatment. A similar effect was observed in contact angle measurements, which after a 36% reduction in its value remains constant (39° ± 4°) for plasma treatments with times above 240 seconds, being surface more hydrophilic. Adhesion tests on the metallized layer indicate that 240 seconds is the minimum time needed to achieve sufficient adhesion for this system, showing an area of removed material less than 5%.

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PVD装饰用塑化PVC等离子表面处理

聚合物材料的表面改性已经导致了新的工业应用的重要进展，允许用更低成本的材料取代工程聚合物。在此背景下，我们研究了基于PVC-DEHP的聚合物材料通过N2O2等离子体处理的表面改性，并应用于物理气相沉积(PVD)装饰金属化。ATR-FTIR分析显示，除了羟基(3200-3500cm-1)和羰基区(1720cm-1)的存在，暴露于等离子体后，化合物表面没有明显的变化。另一方面，AFM分析表明，等离子体处理240秒后，表面粗糙度增加，保持恒定(46.59±9.51nm)。在接触角测量中也观察到类似的效果，在等离子体处理时间超过240秒后，接触角值降低36%后保持恒定(39°±4°)，表面更亲水。金属化层的附着力测试表明，240秒是该系统达到足够附着力所需的最短时间，表明去除材料的面积小于5%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Scientia cum Industria

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