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

Max Ramm; Andreas Pfuch; Oliver Beier; Sebastian Spange; Arnd Schimanski

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

机译：通过在线等离子涂层在大气压下定制表面

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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 carbonitride 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 influenced 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. This article describes surface treatment by means of APCVD and CCVD with the focus on plasma coating at atmospheric pressure. In so doing, possibilities to create new composite coating systems in the nanometer range will be identified. Expanding the range of treatable substrates by textiles, completely new areas of application are being tapped and challenges presented which are also generating new areas of deployment for these in the same breath.

机译：就固体的总质量而言，其表面几乎不占其一部分，但可以影响其特征轮廓，几乎达到100％。在此可以使用碳氮化钛涂层钻头作为代表示例，如果不进行这种表面处理，则绝不会达到当今的使用寿命。在使用改良的玻璃板的情况下，室内气候会受到入射光的反射或透射程度的决定性影响。有关表面改性的知识正在稳步增长，并在价值创造链中占据重要的战略地位。本文介绍了通过APCVD和CCVD进行的表面处理，重点是大气压下的等离子涂层。这样，将确定创建纳米范围内新的复合涂层系统的可能性。纺织品扩大了可处理基材的范围，正在开发全新的应用领域，同时也提出了挑战，这些挑战也同时为这些领域带来了新的应用领域。

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《Technische Textilien》 |2014年第2期|E71-E73|共3页
作者
Max Ramm; Andreas Pfuch; Oliver Beier; Sebastian Spange; Arnd Schimanski;
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Innovent e.V. Technologieentwicklung, Jena/Germany;

Innovent e.V. Technologieentwicklung, Jena/Germany;

Innovent e.V. Technologieentwicklung, Jena/Germany;

Innovent e.V. Technologieentwicklung, Jena/Germany;

Innovent e.V. Technologieentwicklung, Jena/Germany;

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1. Tailor-made surfaces by means of inline plasma coating at atmospheric pressure [J] . Max Ramm, Andreas Pfuch, Oliver Beier, Melliand international . 2014,第3期

机译：通过在线等离子涂层在大气压下定制表面
2. Tailor-made surfaces by means of inline plasma coating at atmospheric pressure [J] . Max Ramm, Andreas Pfuch, Oliver Beier, Melliand international . 2013,第4期

机译：通过在线等离子涂层在大气压下定制表面
3. Improvement of mechanical strength of hydrophobic coating on glass surfaces by an atmospheric pressure plasma jet (Reprinted from Surface & Coatings Technology, vol 357, pg 12-22, 2019) [J] . Hossain Md. Mokter, Quang Hung Trinh, Sudhakaran M. S. P., Surface & Coatings Technology . 2019,第期

机译：大气压等离子体射流改善玻璃表面疏水涂层机械强度（从表面涂层技术，Vol 357，PG 12-22,2019转载
4. Inline Functional Coatings of Surfaces Via Plasma CVD at Atmospheric Pressure [C] . R. A. Wolf, R. E. Ellwanger TAPPI PLACE conference . 2003

机译：大气压下通过等离子CVD的表面在线功能涂层
5. Surface Modification of Polyvinyl Chloride with Silicone Barrier Coatings from Atmospheric Plasmas to Lower Phthalate Migration. [D] . Eck, Bryan J. 2017

机译：聚氯乙烯的表面改性，从大气等离子体到低邻苯二甲酸盐迁移的有机硅阻隔涂层。
6. Development of Organosilicon-Based Superhydrophobic Coatings through Atmospheric Pressure Plasma Polymerization of HMDSO in Nitrogen Plasma [O] . Siavash Asadollahi, Jacopo Profili, Masoud Farzaneh, 2019

机译：氮等离子体中HMDSO的大气压等离子体聚合开发基于有机硅的超疏水涂层
7. Trends in surface engineering of biomaterials: atmospheric pressure plasma deposition of coatings for biomedical applications [O] . G. Da Ponte, E. Sardella, F. Fanelli, 2011

机译：生物材料表面工程趋势：生物医学应用涂层大气压等离子体沉积

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

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