Add to ORKGRoom-temperature uniaxial compressions of 900-nm-diameter aluminum bi-crystals, each containing a high-angle grain boundary with a plane normal inclined at 24° to the loading direction, revealed frictional sliding along the boundary plane to be the dominant deformation mechanism. The top crystallite sheared off as a single unit in the course of compression instead of crystallographic slip and extensive dislocation activity, as would be expected. Compressive stress strain data of deforming nano bicrystals was continuous, in contrast to single crystalline nano structures that show a stochastic stress strain signature, and displayed a peak in stress at the elastic limit of ∼176 MPa followed by gradual softening and a plateau centered a...
Bimodal bulk nanocristalline (nc)/ultrafine (UF) aluminum was produced after cryomilling and spark p...
The presented dissertation discusses an experimental and analytical investigation into the interacti...
The competition between free surfaces and internal grain boundaries as preferential sites for disloc...
Room-temperature uniaxial compressions of 900-nm-diameter aluminum bi-crystals, each containing a h...
The deformation mechanisms occurring in coarse-grained polycrystalline materials are now understood ...
The nanoindentation of a columnar grain boundary (GB) network in nanocrystalline Al has been examine...
We analyze the mechanisms underlying the deformation of a nanovoid in an Al crystal subjected to cyc...
The mechanical behavior of bicrystalline aluminum nano-pillars under uniaxial compression reveals si...
The nanoindentation of a columnar grain boundary (GB) network in nanocrystalline Al has been examine...
The shear-induced coupled grain boundary motion plays an important role in the deformation of nanocr...
This study investigates the effects of grain boundary structures on mechanical properties of nanocry...
Atomistic simulations using the quasicontinuum method are performed to examine the mechanical behavi...
A model for the deformation of nanocrystalline materials based on grain boundary sliding and formati...
Employing a recent modeling scheme for grain boundary sliding [Zhao et al. Adv. Eng. Mater. 2017, do...
The influence of the temperature and sort of alloying element on the deformation of the nanocrystall...
Bimodal bulk nanocristalline (nc)/ultrafine (UF) aluminum was produced after cryomilling and spark p...
The presented dissertation discusses an experimental and analytical investigation into the interacti...
The competition between free surfaces and internal grain boundaries as preferential sites for disloc...
Room-temperature uniaxial compressions of 900-nm-diameter aluminum bi-crystals, each containing a h...
The deformation mechanisms occurring in coarse-grained polycrystalline materials are now understood ...
The nanoindentation of a columnar grain boundary (GB) network in nanocrystalline Al has been examine...
We analyze the mechanisms underlying the deformation of a nanovoid in an Al crystal subjected to cyc...
The mechanical behavior of bicrystalline aluminum nano-pillars under uniaxial compression reveals si...
The nanoindentation of a columnar grain boundary (GB) network in nanocrystalline Al has been examine...
The shear-induced coupled grain boundary motion plays an important role in the deformation of nanocr...
This study investigates the effects of grain boundary structures on mechanical properties of nanocry...
Atomistic simulations using the quasicontinuum method are performed to examine the mechanical behavi...
A model for the deformation of nanocrystalline materials based on grain boundary sliding and formati...
Employing a recent modeling scheme for grain boundary sliding [Zhao et al. Adv. Eng. Mater. 2017, do...
The influence of the temperature and sort of alloying element on the deformation of the nanocrystall...
Bimodal bulk nanocristalline (nc)/ultrafine (UF) aluminum was produced after cryomilling and spark p...
The presented dissertation discusses an experimental and analytical investigation into the interacti...
The competition between free surfaces and internal grain boundaries as preferential sites for disloc...