A New Constitutive Model for Work Hardening Based on Gain Boundary Energy Density

Abstract: Recently, the necessity to grade grain size to ultrafine and nano scale for understanding the mechanical behavior of these materials has been recognized. However, the nature of such classification has remained unclear. As an example, ultrafine (100 nm -1 μm) and nano (<100 nm) grained FCC metals, compared to their coarse grained counterparts, exhibit a grain size strengthening that may deviate from the Hall-Petch relationship. To explain the mechanism of such deviation, previous dislocation theories seem in… Show more

“…One of the microstructural features found frequently in CVD processed ultrafine-and nano-grained metals is the ultrafine-and nano-sized growth twins [14]. The presence of these twins can play an important role in strengthening the materials similar to the effect of grain boundaries.…”

Microstructure stability and evolution in CVD carbonyl Ni materials upon annealing – Grain growth and detwinning process

“…One of the microstructural features found frequently in CVD processed ultrafine-and nano-grained metals is the ultrafine-and nano-sized growth twins [14]. The presence of these twins can play an important role in strengthening the materials similar to the effect of grain boundaries.…”

Microstructure stability and evolution in CVD carbonyl Ni materials upon annealing – Grain growth and detwinning process