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A finite-element approach to evaluating the size effects of complex nanostructures

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posted on 2024-07-11, 08:18 authored by Dingjie Lu, Yi Min Xie, Qing Li, Xiaodong HuangXiaodong Huang, Yang Fan Li, Shiwei Zhou
The size effects that reveal the dramatic changes of mechanical behaviour at nanoscales have traditionally been analysed for regular beam systems. Here, the method of using finite-element analysis is explored with the intention of evaluating the size effects for complex nanostructures. The surface elasticity theory and generalized Young–Laplace equation are integrated into a beam element to account for the size effects in classical Euler–Bernoulli and Timoshenko beam theories. Computational results match well with the theoretical predictions on the size effect for a cantilever beam and a cubic unit cell containing 24 horizontal/vertical ligaments. For a simply supported nanowire, it is found that the results are very close to the experimental data. With the assumption that nanoporous gold is composed of many randomly connected beams, for the first time, the size effect of such a complex structure is numerically determined.

Funding

Topology optimisation for advanced engineered nanostructures

Australian Research Council

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Design of Novel Metamaterials Considering Large Deformation and Plasticity

Australian Research Council

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History

Available versions

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ISSN

2054-5703

Journal title

Royal Society Open Science

Volume

3

Issue

12

Article number

article no. 160625

Publisher

The Royal Society Publishing

Copyright statement

Copyright © 2016 The Authors. Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited.

Language

eng

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