Viscosities of liquid metal alloys from nonequilibrium molecular dynamics Academic Article

abstract

• We have developed a nonequilibrium molecular dynamics (NEMD) approach to predict viscosity by including external shear rates directly into the Hamiltonian equations of motion. Using the quantum SuttonChen (QSC) many-body potentials for Au and Cu, we applied NEMD to predict the viscosity as a function of shear rates for AuxCu1x alloys with x ranging from 0 to 100%. This was done for temperatures of 1500 K to 2000 K. The predicted viscosities are in reasonable agreement with experiment. In particular, we find that fixing the density and changing the temperature leads to very little change in the shear viscosity. Thus, the temperature dependence in viscosity is mainly due to the change in density with temperature.

authors

• Cagin, Tahir

published proceedings

• Scientific Modeling and Simulation SMNS

author list (cited authors)

• Qi, Y., ain, T., Kimura, Y., & Goddard, W. A.

citation count

• 77

complete list of authors

• Qi, Yue||Çağin, Tahir||Kimura, Yoshitaka||Goddard, William A

publication date

• May 2001

publisher

• Springer Nature  Publisher

published in

• Scientific Modeling and Simulation  Journal

Digital Object Identifier (DOI)

• 10.1023/a:1020050901614

start page

• 233

end page

• 243

volume

• 8

issue

• 2-3

URL

• http%3A%2F%2Fdx.doi.org%2F10.1023%2Fa%3A1020050901614