A combined first principles and Mohr-Coulomb criterion for the determination of the nanohardness of amorphous silicon

A combined first principles and Mohr-Coulomb criterion for the determination of the nanohardness of amorphous silicon

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Although, the evaluation of the nanohardness of amorphous silicon (a-Si) has been the subject of a few experimental works but, to date, it has not been addressed theoretically yet.In this work, first principles Kohn-Sham density functional theory (DFT)-based molecular dynamics (MD) in combination with Mohr-Coulomb criterion is employed to calculate the ideal shear strength of the damped MD annealed a-Si sample containing dangling and floating bonds which fleshlight automatique are pertinent to the threefold- and wac 4011 fivefold-coordinated defects, respectively, as well as distorted tetrahedral bonds.The stress state beneath the nanoindenter is triaxial, and is accounted for properly.The calculated values of nanohardness are in reasonable agreement with those values measured experimentally.

Consideration of the electronic charge distribution under the state of triaxial tension test reveals that the yield phenomenon in a-Si is accompanied by the transformation of a threefold-coordinated Si atom to a fourfold-coordinated.