Sharp local sliding such as shear band is frequently observed in bulk metallic glass subject to mechanical loading, and it usually leads to a global mechanical instability and then a catastrophic failure of metallic glass. Although sliding induced frictional force is a key to understand the stability of metallic glass, the details has not been fully clarified yet. Using a micromechanics-based kinetic Monte Carlo tensile test simulation of metallic glass [1], we computed a temperature and velocity dependent shear frictional force in metallic glass in experimental time scale. We found a negative velocity dependency (velocity weakening) within certain temperature range and thus a velocity dependency transition from negative to positive (velocity hardening) at a transition temperature as the temperature increases. The similar trend has been observed in rock as well [2].

[1] P. Zhao, et al., International Journal of Plasticity, 40 pp.1-22 (2013).

[2] C H. Scholz, nature, 391 pp.37-42 (1998).