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Effect of Interatomic Potential on Simulation of Fracture Behavior of Cu/Graphene Composite: A Molecular Dynamics Study

Liliya R. Safina, Elizaveta A. Rozhnova, Ramil T. Murzaev, Julia A. Baimova

2023Applied Sciences18 citationsDOIOpen Access PDF

Abstract

Interatomic interaction potentials are compared using a molecular dynamics modeling method to choose the simplest, but most effective, model to describe the interaction of copper nanoparticles and graphene flakes. Three potentials are considered: (1) the bond-order potential; (2) a hybrid embedded-atom-method and Morse potential; and (3) the Morse potential. The interaction is investigated for crumpled graphene filled with copper nanoparticles to determine the possibility of obtaining a composite and the mechanical properties of this material. It is observed that not all potentials can be applied to describe the graphene–copper interaction in such a system. The bond-order potential potential takes into account various characteristics of the bond (for example, the angle of rotation and bond lengths); its application increases the simulation time and results in a strong interconnection between a metal nanoparticle and a graphene flake. The hybrid embedded-atom-method/Morse potential and the Morse potential show different results and lower bonding between graphene and copper. All the potentials enable a composite structure to be obtained; however, the resulting mechanical properties, such as strength, are different.

Topics & Concepts

GrapheneMorse potentialMaterials scienceMolecular dynamicsInteratomic potentialCopperComposite numberAtom (system on chip)Lennard-Jones potentialEmbedded atom modelNanoparticleChemical physicsBond orderNanotechnologyComposite materialBond lengthComputational chemistryMoleculeChemistryAtomic physicsPhysicsMetallurgyQuantum mechanicsEmbedded systemComputer scienceMicrostructure and mechanical propertiesGraphene research and applicationsCarbon Nanotubes in Composites
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