1. Hydrophobic and wear-resistible surface coating of carbon steel using linear microwave plasma with TE-TEM mode power coupling
- Author
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Dong-Hyun Kim, Taehwan Kim, Ho-Jun Lee, Ju-Hong Cha, Hae June Lee, Min Wook Kim, and Moon-Ki Han
- Subjects
Contact angle ,Surface coating ,Materials science ,Analytical chemistry ,Biasing ,Surface layer ,Plasma ,Plasma processing ,Ion source ,Volumetric flow rate - Abstract
A linear microwave plasma source has been prepared for hydrophobic and wear-resistible surface coating of carbon steel. Hydrophobic wear-resistible properties are essential for adhesive film cutting tools. Microwave power was coupled to plasma through TE 10 -TEM mode converter. Compared with RF capacitively couple plasmas which have long been used for hydrophobic surface treatment, microwave plasma can provide wider process windows, independent ion energy controllability and faster processing rate. In this study, Ar/CH 4 /CF 4 and their mixture was used for surface treatment. Stable and uniform 45cm-long plasma could be obtained in a pressure range of 100 ∼ 500 mTorr with microwave power of 500 W. 13.56 MHz RF power was independently applied to substrate electrode for bias voltage control. After Ar plasma treatment for surface cleaning, Ar/CH 4 and Ar/CH 4 /CF 4 plasma enhanced deposition process has been performed. CH 4 was chosen to achieve wear-resistibility and improve tribological properties by forming a-C:H diamond-like carbon layer. Additional CF 4 incorporation allowed us to enhance hydrophobicity of the surface layer. Optimized deposition condition was investigated as a function of microwave power, gas pressure, gas flow rate and bias power. The nominal deposition rate was 124Å/min at Ar:CH 4 = 25:50 sccm, 300 mTorr with microwave power of 300W. After CF 4 plasma incorporation, hydrophobicity was drastically improved. The contact angle was changed from 57 degree to 120 degree.
- Published
- 2015
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