汽车光学元件聚合物基板上铬PVD涂层的磨损特性

A. Baptista, G. Pinto, Francisco J. G. Silva, A. Ferreira, A. Pinto, V. Sousa
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引用次数: 15

摘要

汽车行业是满足市场期望的解决方案的先驱。然而,在汽车工业中,一些不太环保的技术仍在使用,如电镀。由于一些国家的立法限制,在真空中制成的薄涂层已经取代了传统上由电镀制成的涂层,主要是在装饰方面。这项工作更侧重于将这些真空涂层用于光学应用,即前照灯和外部背光组件。虽然这些组件在使用期间受到保护,但在组件组装或维修期间可能会出现接触的情况,这是必要的保护,并确保这些涂层具有承受上述操作期间任何处理缺陷所需的划伤和耐磨性。因此,本工作的重点是研究PVD(物理气相沉积)法制备的Cr涂层在聚合物基体上的耐磨性。为此目的,以前研究的涂层现在已经进行了微磨损试验,以评估其耐磨性。为此,采用氧化铝磨料,并对涂层的磨损机理进行了研究。磨损和划伤测试表明,最稳定的薄膜是10层的薄膜,在所进行的测试中表现出更强的耐磨性,对基材的附着力更强,并且更少的内聚失效。考虑到基材和涂层的性质,所获得的结果非常有希望,表明这些10层Cr薄涂层可以克服制造、组装和维修过程中的任何粗心操作,当应用于汽车的闪电或背光组件时。
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Wear Characterization of Chromium PVD Coatings on Polymeric Substrate for Automotive Optical Components
The automotive industry is a pioneer in solutions that meet market expectations. However, in the automotive industry, some less environmentally friendly technologies are still used, such as electroplating. Due to legislative restrictions in several countries, thin coatings made in a vacuum have been replacing coatings traditionally made by electroplating, mainly in decorative terms. This work is more focused on the use of these coatings made in vacuum for optical applications, namely on headlights and exterior backlit components. Although these components are protected during the period of use, there may be situations of contact during the assembly of the components or their repair, necessary to safeguard and to ensure that these coatings have the scratch and wear resistance needed to withstand any treatment deficiency during the operations referred to above. Therefore, this work is essentially focused on the study of the wear resistance of Cr coatings made by PVD (Physical Vapour Deposition) on polymeric substrates. To this end, the coatings previously studied have now been subjected to micro-abrasion tests, with a view to assessing their wear resistance. For this purpose, alumina abrasive has been used, and the wear mechanisms observed in the coatings were studied. The abrasion and scratch tests showed that the most stable film has the one provided with 10-layers, showing greater wear resistance as well, greater adhesion to the substrate and less cohesive failures in the performed tests. Given the nature of the substrate and the coating, the results obtained are very promising, showing that these 10-layer Cr thin coatings can overcome any careless operation during manufacturing, assembly and repair processes, when applied in lightning or backlit components in motor vehicles.
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