Title :
Mechanical characterization of a Au coated carbon nanotube multi-layered structure
Author :
Hong Liu ; McBride, J.W. ; Pu, S.H. ; Down, M.P. ; Jiang, L.
Author_Institution :
Univ. of Southampton Malaysia Campus, Nusajaya, Malaysia
Abstract :
Multiwalled Carbon Nanotube (MWCNT)-coated surfaces have been proved to be able to provide stable resistance for the electrical contact under low force conditions since they can offer a compliant support for the conducting gold layer. However, the contact mechanics of the Au/MWCNTs composite have not been understood. In this study, a finite element multilayered contact model was developed, in which the top layer was modeled as a composite and under layer was modeled as CNT forest. The study shows that this complex surface is best modeled as a multi-layered structure. The model is optimized and validated with nano-indenter data. The model can help to better understand the configuration and material properties of Au/CNTs surfaces, and can provide guidance to optimize the surface in terms of contact resistance performance in MEMS switches.
Keywords :
carbon nanotubes; coatings; contact resistance; finite element analysis; gold; microswitches; nanoindentation; Au; Au coated carbon nanotube multilayered structure; MEMS switches; MWCNT-coated surfaces; conducting gold layer; contact resistance; finite element multilayered contact model; multiwalled carbon nanotube-coated surfaces; nano-indenter data; Finite element analysis; Gold; Load modeling; Manganese; Material properties; Surface treatment; carbon nanotubes; contact mechanics; finite element modeling; multi-layered;
Conference_Titel :
Electrical Contacts (Holm), 2014 IEEE 60th Holm Conference on
Conference_Location :
New Orleans, LA
DOI :
10.1109/HOLM.2014.7031041
