Georgia Tsoukleri, John Parthenios, Konstantinos Papagelis, Rashid Jalil, Andrea C. Ferrari, A. K. Geim, Kostya S. Novoselov, Costas Galiotis
Published 2009-10-04Version 1
The mechanical behaviour of graphene flakes under both tension and compression is examined using a cantilever-beam arrangement. Two different sets of samples were employed involving flakes just supported on a plastic bar but also embedded within the plastic substrate. By monitoring the shift of the 2D Raman line with strain, information on the stress transfer efficiency as a function of stress sign and monolayer support were obtained. In tension, the embedded flake seems to sustain strains up to 1.3%, whereas in compression there is an indication of flake buckling at about 0.7% strain. The retainment of such a high critical buckling strain confirms the relative high flexural rigidity of the embedded monolayer.
Journal: Small 5(21) 2397 - 2402 (2009)
Magnetocapacitance of a graphene monolayer
Quantum friction between oscillating crystal slabs: Graphene monolayers on dielectric substrates
Magneto-oscillations on specific heat of graphene monolayer
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