Development and Integration of Single-Asperity Nanotribology Experiments & Nanoscale Interface Finite Element Modeling for Prediction and Control of Friction and Damage in Micro- and Nano-mechnical Systems | Zendy

Robert W. Carpick | Zendy; Michael E. Plesha | Zendy

Open Access

Development and Integration of Single-Asperity Nanotribology Experiments & Nanoscale Interface Finite Element Modeling for Prediction and Control of Friction and Damage in Micro- and Nano-mechnical Systems

Author(s) -

Robert W. Carpick,

Michael E. Plesha

Publication year - 2007

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/922930

Subject(s) - nanotribology , asperity (geotechnical engineering) , nanoscopic scale , finite element method , microelectromechanical systems , nanotechnology , materials science , nano , interface (matter) , monolayer , mechanical engineering , engineering , atomic force microscopy , structural engineering , composite material , capillary number , capillary action

This report describes the accomplishments of the DOE BES grant entitled "Development and Integration of Single-Asperity Nanotribology Experiments & Nanoscale Interface Finite Element Modeling for Prediction and Control of Friction and Damage in Micro- and Nano-mechnical Systems". Key results are: the determination of nanoscale frictional properties of MEMS surfaces, self-assembled monolayers, and novel carbon-based films, as well as the development of models to describe this behavior

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