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Layered atomic structures of silver vanadate compounds for low shear strength at high temperatures
Polymer Science Faculty Research
  • Mesfin Tsige, The University of Akron
Document Type
Article
Publication Date
4-1-2010
Abstract
The aerospace industry has been a strong driving force for the creation of new and effective wear-resistant and lubricious materials at high temperatures (T > 500 \r{ }C). Solid lubricants (SLs) such as graphite and molybdenum disulfide oxidize and, hence, degrade rapidly at T > 350 \r{ }C. The selection of oxides is a clear viable alternative for the choice of SLs when confronting the problem of oxidation. Double metal oxides of the form MexTMyOz, where Me is a noble metal and TM a transition metal, were found to exhibit relatively low coefficients of friction in the 500 to 700 \r{ }C range (μ = 0.1-0.3) . Very recently, our group has undertaken to understand the friction properties of a silver vanadate, which was shown to be an effective lubricant up to 1000 \r{ }C. We show, using \textit{ab-initio }calculations within the density functional theory framework, that the layered atomic structure of silver vanadate with weak inter-planar bonds that facilitate sliding, resulted in a low coefficient of friction.
Citation Information
Mesfin Tsige. "Layered atomic structures of silver vanadate compounds for low shear strength at high temperatures" Vol. 55 (2010)
Available at: http://works.bepress.com/mesfin_tsige/29/