MODIFICATION OF WETTABILITY OF A STAINLESS-STEEL PLATE BY CATHODIC PLASMA POLYMERIZATION OF TRIMETHYLSILANE OXYGEN MIXTURES

被引:9
|
作者
WANG, TF
YASUDA, HK
机构
[1] UNIV MISSOURI,DEPT CHEM ENGN,COLUMBIA,MO 65211
[2] UNIV MISSOURI,CTR SURFACE SCI & PLASMA TECHNOL,COLUMBIA,MO 65211
来源
JOURNAL OF APPLIED POLYMER SCIENCE | 1995年 / 55卷 / 06期
关键词
D O I
10.1002/app.1995.070550608
中图分类号
O63 [高分子化学(高聚物)];
学科分类号
070305 ; 080501 ; 081704 ;
摘要
Wettability (by water) of a stainless-steel plate was modified by depositing an ultrathin layer of a plasma polymer of trimethylsilane (TMS) and an oxygen mixture. Plasma polymerization was carried out by cathodic glow discharge polymerization, in which a substrate stainless-steel plate was used as the cathode of the de glow discharge. The plasma polymer of TMS (oxygen mol fraction = 0) is very hydrophobic, but the addition of oxygen in the monomer mixture increased the hydrophilicity of the plasma polymer. The value of cos theta (theta: advancing contact angle of water) linearly increased with the mol fraction of oxygen in the monomer mixture. Oxygen in the monomer mixture acts as (1) an ablating agent of a carbon-based plasma polymer and (2) a comonomer for a silicon-based plasma polymer. The atomic composition of a plasma polymer, which can be expressed as SiCxOy, changes (x decreases and y increases) as the mol fraction of oxygen increases. (C) 1995 John Wiley and Sons, Inc.
引用
收藏
页码:903 / 909
页数:7
相关论文
共 50 条
  • [21] ARGON-OXYGEN PROCESS FOR STAINLESS-STEEL
    KRIVSKY, WA
    FONDERIE, 1976, 31 (359): : 318 - 318
  • [22] CORROSION OF STAINLESS-STEEL BY ORGANIC-SOLVENT MIXTURES
    KU, AY
    FREEMAN, DH
    ANALYTICAL CHEMISTRY, 1977, 49 (11) : 1637 - 1638
  • [23] Overview of stainless-steel clad-plate welding
    LIU Shuo
    BaosteelTechnicalResearch, 2018, 12 (02) : 33 - 41
  • [24] SURFACE MODIFICATION OF STAINLESS-STEEL BY AN ALTERNATING VOLTAGE PROCESS
    KWIATKOWSKI, L
    MANSFELD, F
    JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 1993, 140 (03) : L39 - L41
  • [25] SURFACE MODIFICATION OF FERRITIC STAINLESS-STEEL BY LASER ALLOYING
    TSAI, WT
    SHIEH, CH
    LEE, JT
    THIN SOLID FILMS, 1994, 247 (01) : 79 - 84
  • [26] NONISOTROPIC DEPOSITION FROM A 304 STAINLESS-STEEL CATHODIC ARC SOURCE
    POIRIER, DM
    LINDFORS, PA
    JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A, 1991, 9 (02): : 278 - 280
  • [27] MODIFICATION OF PASSIVE STATE OF A STAINLESS-STEEL BY MICROBIAL DEPOSIT
    MORALES, J
    ESPARZA, P
    SALVAREZZA, RC
    GONZALEZ, S
    ANALES DE QUIMICA, 1993, 89 (02): : 190 - 195
  • [28] Modification of wettability of stainless steel by picosecond laser surface microstructuring
    Bao, Zongjie
    Wang, Chengwei
    Zhang, Yang
    Zhao, Quan-Zhong
    PHOTONICS RESEARCH, 2015, 3 (04) : 180 - 183
  • [29] BEHAVIOR OF NITROGEN DURING OXYGEN INJECTION OF STAINLESS-STEEL
    KOGAN, AE
    LEVIN, AM
    STEEL IN THE USSR, 1973, 3 (04): : 300 - 303
  • [30] MONITORING DECARBURIZATION IN VACUUM OXYGEN REFINING OF STAINLESS-STEEL
    GRIGOREV, NS
    NECHAEV, EA
    KOZLOV, GS
    LIVENTSEV, VP
    PERFILEV, VG
    STEEL IN THE USSR, 1990, 20 (06): : 264 - 265
12345