BibTex format
@article{Ku:2011,
author = {Ku, ISY and Reddyhoff, T and Holmes, AS and Spikes, HA},
journal = {Wear},
pages = {1050--1058},
title = {Wear of silicon surfaces in MEMS},
url = {http://dx.doi.org/10.1016/j.wear.2011.04.005},
volume = {271},
year = {2011}
}
RIS format (EndNote, RefMan)
TY - JOUR
AB - High levels of friction and wear are problems which currently limit the development of sliding micro-electro-mechanical systems (MEMS) - devices which would otherwise offer significant technological advancement. The current paper focuses on the wear of MEMS silicon surfaces, and specifically looks at the effect of environment and surface preparation on wear behaviour. Included in the study is the assessment of two self-replenishing lubrication mechanisms; namely liquid and vapour phase lubrication. All tests were carried out using a tribometer which operated and measured friction and wear under conditions representative of MEMS.It is shown that friction and wear behaviour depend strongly on subtle changes of the silicon surfaces prior to testing. Greatest wear was measured when the surfaces were tested immediately after plasma-cleaning, while subsequent exposure to ambient air for 15. h reduced wear to negligible levels. Exposure of plasma-cleaned surfaces to water-saturated argon prior to testing prevented wear to a limited extent. Based on this, and TOF-SIMS analysis, it is suggested that the observed wear reduction after exposure to air is caused by tiny amounts of lubricious long chain hydrocarbon contaminants present in ambient air.Tests carried out with the specimens submerged in a liquid bath show that the presence of liquid water reduces friction and wear, but only if specimens have been plasma-cleaned beforehand. This behaviour is tentatively attributed to the hydrophilic nature of plasma treated silicon, reducing the corrosive action of water. When hexadecane or 1-pentanol was used as a liquid lubricant, friction was minimal, and wear was undetectable under all sliding conditions. This was the case even though the contact operated in the mixed lubrication regime, suggesting a boundary film is formed on the silicon surfaces by both of these organic liquids.Results of tests carried out with the lubricant being supplied in the form of pentanol vapour also sho
AU - Ku,ISY
AU - Reddyhoff,T
AU - Holmes,AS
AU - Spikes,HA
EP - 1058
PY - 2011///
SN - 0043-1648
SP - 1050
TI - Wear of silicon surfaces in MEMS
T2 - Wear
UR - http://dx.doi.org/10.1016/j.wear.2011.04.005
VL - 271
ER -