Mohammadreza Yaghoobi scite author profile

Nanoindentation is a well-stablished experiment to study the mechanical properties of materials at the small length scales of micro and nano. Unlike the conventional indentation experiments, the nanoindentation response of the material depends on the corresponding length scales, such as indentation depth, which is commonly termed the size effect. In the current work, first, the conventional experimental observations and theoretical models of the size effect during nanoindentation are reviewed in the case of crystalline metals, which are the focus of the current work. Next, the recent advancements in the visualization of the dislocation structure during the nanoindentation experiment is discussed, and the observed underlying mechanisms of the size effect are addressed. Finally, the recent computer simulations using molecular dynamics are reviewed as a powerful tool to investigate the nanoindentation experiment and its governing mechanisms of the size effect.

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Effect of boundary conditions on the MD simulation of nanoindentation

Yaghoobi

Voyiadjis

2014

Computational Materials Science

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Size effects in fcc crystals during the high rate compression test

Yaghoobi

Voyiadjis

2016

Acta Materialia

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The effects of heat treatment on the response of WE43 Mg alloy: crystal plasticity finite element simulation and SEM-DIC experiment

Ganesan

Yaghoobi

Githens

et al. 2021

International Journal of Plasticity

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Large scale atomistic simulation of size effects during nanoindentation: Dislocation length and hardness

Voyiadjis

Yaghoobi

2015

Materials Science and Engineering: A

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