常压等离子体表面功能性涂层

Tailor-made surfaces by means of inline plasma coating at atmospheric pressure

虽然固体表面总量很小,但却几乎影响整个固体100%的特性。以碳氮化钛涂层钻头为例,若无表面处理,则将无法实现现有的使用寿命。在改性玻璃板作用下,通过入射光的反射或透射可显著影响室内气候。随着对表面改性认知的稳定增长,其在价值创造链中占据了关键的战略地位。介绍了通过常压等离子体涂层进行表面处理的APCVD和CCVD方法。通过此法,有望进一步创造新型纳米尺度的复合涂层体系,扩大可处理纺织品的种类,开发可利用的全新领域,同时也呈现了新领域部署而产生的挑战性。

The surface of a solid body, in terms of its total mass, takes up hardly a fraction but can influence its characteristic profile up to well-nigh 100%. Titanium earbonitride coated drills can be drawn on here as a representative example which, without this surface treatment, would in no way achieve their present day service lives. In the case of modified glass panes the indoor climate can be decisively influeneed by the degree of reflection or transmission of the incident light. Knowledge concerning the modification of surfaces is growing steadily and is taking on a key strategic position in the value creation chain. surface treatment by means of APCVD and CCVD with the focus on plasma coating at This article describes atmospheric pressure. In so doing, possibilities to create new composite coating systems in the nanometer range will be identified. Expanding the and challenges range of treatable substrates by textiles, completely new areas of application are being tapped presented which are also generating new areas of deployment for these in the same breath.