Projects per year
Abstract / Description of output
We present molecular dynamics simulations of monolayer graphene under uniaxial tensile loading. The Morse, bending angle, torsion and Lennard-Jones potential functions are adopted within the mdFOAM library in the OpenFOAM software, to describe the molecular interactions in graphene. A well-validated graphene model using these set of potentials is not yet available. In this work, we investigate the accuracy of the mechanical properties of graphene when derived using these simpler potentials, compared to the more commonly used complex potentials such as the Tersoff-Brenner and AIREBO potentials. The computational speed-up of our approach, which scales O(1.5N), where N is the number of carbon atoms, enabled us to vary a larger number of system parameters, including graphene sheet orientation, size, temperature and concentration of nanopores. The resultant effect on the elastic modulus, fracture stress and fracture strain is investigated. Our simulations show that graphene is anisotropic, and its mechanical properties are dependant on the sheet size. An increase in system temperature results in a significant reduction in the fracture stress and strain. Simulations of nanoporous graphene were created by distributing vacancy defects, both randomly and uniformly, across the lattice. We find that the fracture stress decreases substantially with increasing defect density. The elastic modulus was found to be constant up to around 5% vacancy defects, and decreases for higher defect densities.
Original language | English |
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Pages (from-to) | 1502-1511 |
Journal | Molecular simulation |
Volume | 42 |
DOIs | |
Publication status | Published - 14 Sept 2016 |
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Dive into the research topics of 'Mechanical properties of pristine and nanoporous graphene'. Together they form a unique fingerprint.Projects
- 1 Finished
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Non-Equilibrium Fluid Dynamics for Micro/Nano Engineering Systems
Reese, J., Lockerby, D. A., Emerson, D. R. & Borg, M.
1/01/11 → 16/02/16
Project: Project from a former institution
Datasets
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Mechanical properties of pristine and nanoporous graphene
Borg, M. (Creator), Agius Anastasi, A. (Creator), Ritos, K. (Creator) & Cassar , G. (Creator), Edinburgh DataShare, 2016
DOI: 10.7488/ds/1363
Dataset