What question did this study set out to answer?

The research aims to analyze the mechanical behavior of rod- and beam-like atomic nanostructures using a systematic approach.

April 4, 2026Open Access

FE² Method to Model Rod- and Beam-Like Atomic Based Nanostructures

Key Points

The research aims to analyze the mechanical behavior of rod- and beam-like atomic nanostructures using a systematic approach.
Analyzed mechanical behavior using the FE² method
Described macroscopic behavior with a two-dimensional Timoshenko beam model
Employed molecular mechanics for the microscopic level
Developed a representative volume element (RVE) for the microstructure
Implemented periodic boundary conditions to apply macro strains to micro levels.
Validated the method through comparison with full atomistic simulations
Demonstrated effective modeling of nanostructures with reduced boundary effects

Abstract

The mechanical behaviour of rod- and beam-like atomistic nanostructures is analysed using the FE² method. At the macroscopic scale, the system is described by a two-dimensional Timoshenko beam model. On the microscopic level, molecular mechanics is used. The molecular mechanical model is based on a harmonic potential that accounts for 2-atom and 3-atom interactions. For the microstructure an appropriate representative volume element (RVE) is developed. To reduce boundary effects introduced by the molecular description, a simple correction technique is presented. The strains of the macro level are applied to the micro level via periodic boundary conditions. The overall method is validated through comparison with full atomistic simulations.

FE² Method to Model Rod- and Beam-Like Atomic Based Nanostructures

Key Points

Abstract

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