Molecular dynamics simulations of supercooled liquid metals and glasses Conference Paper uri icon

abstract

  • The thermodynamic, transport and structural properties of a binary metallic glass former in solid, liquid, and glass phases were studied using molecular dynamics simulation. We used a model binary alloy system with a sufficient atomic size mismatch and observed a glass transition in a quenching process. The diffusivity and viscosity were calculated in the liquid state and the super-cooled liquid state. The smaller atom showed higher diffusivity and more configurational randomness compared to the larger atom. The viscosity increased abruptly around the glass transition temperature. The solvent/solute concentration effect on the glass transition was examined in terms of a packing fraction. We find that the glass forming ability increases with the packing fraction in the liquid state because the densely-packed material requires more time to rearrange and crystallize.

published proceedings

  • Materials Research Society Symposium - Proceedings

author list (cited authors)

  • Lee, H. J., Qi, Y., Strachan, A., Cagin, T., Goddard, W. A., & Johnson, W. L.

complete list of authors

  • Lee, HJ||Qi, Y||Strachan, A||Cagin, T||Goddard, WA||Johnson, WL

publication date

  • December 2001