Month: January 2016

  1. Interaction of interstitial solid-solution impurities and dislocation motion in body-centred cubic metals

    Principal Investigators: Christian Brandl The development of novel materials for high-temperature applications also entails the knowledge of 1) the fundamental mechanisms responsible for materials mechanical behaviour and 2) how does the materials composition modify these mechanisms. The motion of these dislocations and the mutual interaction of dislocations amongst themselves and with impurities govern the macroscopic […]

    blogs.unimelb.edu.au/materials-mechanics-modelling/2016/01/01/interaction-of-interstitial-solid-solution-impurities-and-dislocation-motion-in-body-centred-cubic-metals