Nanoindentation study of slip transfer phenomenon at grain boundaries

Nanoindentation Was undertaken near grain boundaries to increase understanding of their individual contributions to the material's macroscopic mechanical properties. Prior work with nanoindentation in body-centered cubic (bcc) materials has shown that some grain boundaries produce I pop-in event, an excursion in the load-displacement curve. In the Current work, g rain boundary associated pop-in events were observed in a Fe-0.01 wt% C polycrystal (bcc), and this is characteristic of high resistance to intergranular slip transfer. Grain boundaries with greater misalignment of slip systems tended to exhibit greater resistance to slip transfer. Grain boundary associated pop-ins were not observed in pure copper (face-centered Cubic) or interstitial free steel similar to 0.002 wt% C (bcc). Additionally, it was found that cold work of the Fe-0.01 wt% C polycrystal immediately prior to indentation completely Suppressed grain boundary associated pop-in events. It is Concluded that the grain boundary associated pop-in events are directly linked to interstitials pinning dislocations on or near the boundary. This links well with macroscopic Hall-Petch effect observations.