Wear stability of polymer nanocomposite coatings with trilayer architecture

Authors
Sidorenko, AAhn, HSKim, DIYang, HTsukruk, VV
Issue Date
2002-06
Publisher
ELSEVIER SCIENCE SA
Citation
WEAR, v.252, no.11-12, pp.946 - 955
Abstract
A polymer trilayer (sandwiched) film with a thickness of 20-30 run has been designed to serve as a wear resistant nanoscale coating for silicon surfaces. These surface structures are formed by a multiple grafting technique applied to self-assembled monolayers (SAM) and functionalized tri-block copolymer, followed by the photopolymerization of a topmost polymer layer. The unique design of this layer includes a hard-soft-hard nanoscale architecture with a compliant rubber interlayer mediating localized stresses transferred through the topmost hard layer. This architecture provides a non-linear mechanical response under a normal compression stress and allows additional dissipation of mechanical energy via the highly elastic rubber interlayer. At modest loads, this coating shows friction coefficient against hard steel below 0.06, which is lower than that for a classic molecular lubricant, alkylsilane SAM. At the highest pressure tested in this work, 1.2 GPa, the sandwiched coating possesses four times higher wear resistance than the SAM coating, The wear mechanism for this coating is stress and temperature induced oxidation in the contact area followed by severe plowing wear. (C) 2002 Elsevier Science B.V. All rights reserved.
Keywords
SCANNING PROBE MICROSCOPY; MECHANICAL-PROPERTIES; FILMS; PHOTOPOLYMERIZATIONS; MONOLAYERS; EVOLUTION; SCANNING PROBE MICROSCOPY; MECHANICAL-PROPERTIES; FILMS; PHOTOPOLYMERIZATIONS; MONOLAYERS; EVOLUTION; wear stability; MEMS; nanocomposite coatings; boundary lubricants
ISSN
0043-1648
URI
https://pubs.kist.re.kr/handle/201004/139484
DOI
10.1016/S0043-1648(02)00048-0
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KIST Article > 2002
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