Nanoindentation experiments for single-layer rectangular graphene films: a molecular dynamics study
نویسندگان
چکیده
A molecular dynamics study on nanoindentation experiments is carried out for some single-layer rectangular graphene films with four edges clamped. Typical load-displacement curves are obtained, and the effects of various factors including indenter radii, loading speeds, and aspect ratios of the graphene film on the simulation results are discussed. A formula describing the relationship between the load and indentation depth is obtained according to the molecular dynamics simulation results. Young's modulus and the strength of the single-layer graphene film are measured as about 1.0 TPa and 200 GPa, respectively. It is found that the graphene film ruptured in the central point at a critical indentation depth. The deformation mechanisms and dislocation activities are discussed in detail during the loading-unloading-reloading process. It is observed from the simulation results that once the loading speed is larger than the critical loading speed, the maximum force exerted on the graphene film increases and the critical indentation depth decreases with the increase of the loading speed.
منابع مشابه
Correction: Nanoindentation experiments for single-layer rectangular graphene films: a molecular dynamics study
Correction In the original version of this article [1], the sizes of the simulated graphene models with different aspect ratios were not listed. Here, we add Table one (Table 1 here) to illustrate the sizes of rectangular graphene films simulated in the article [1]. In addition, there is a typo in the Acknowledgements section of the origin version of this article [1]. The right one is given in ...
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