Add to ORKGThe mechanical behavior of bicrystalline aluminum nano-pillars under uniaxial compression reveals size effects, a stochastic stress–strain signature, and strain hardening. Pillar diameters range from 400 nm to 2 μm and contain a single, non-sigma high angle grain boundary oriented parallel to the pillar axes. Our results indicate that these bicrystalline pillars are characterized by intermittent strain bursts and exhibit an identical size effect to their single crystalline counterparts. Further, we find that the presence of this particular grain boundary generally decreases the degree of work hardening relative to the single crystalline samples. These findings, along with transmission electron microscopy analysis, show that nano-pillar plas...
We present differences in the mechanical behavior of nanoscale gold and molybdenum single crystals. ...
The emergence of a substantial body of literature focusing on uniaxial compression experiments of mi...
Micron-sized aluminum pillars, fabricated by focused-ion beam milling, were subjected to compression...
The mechanical behavior of bicrystalline aluminum nano-pillars under uniaxial compression reveals si...
The effect of inclusion of a grain boundary in nanopillar was studied using Al bicrystal with [3 43]...
The deformation of micron-sized single-crystals is jumpy and stochastic, and this may pose potential...
Effect of solutes, crystal orientation, sample’s size, and dislocation density on the nano/microscal...
<div><p>The formation of dislocation cells has a significant impact on the strain hardening behaviou...
Nanolayered materials consisting of alternate layers of two different metals offer enhanced mechanic...
The mechanical behavior of single crystalline aluminum nano-pillars under uniaxial compression diffe...
It is by now well-known that micron-sized metallic crystals exhibit a smaller-being-stronger size ef...
We report the synthesis, mechanical properties, and deformation mechanisms of polycrystalline, plati...
We present differences in the mechanical behavior of nanoscale gold and molybdenum single crystals. ...
Room-temperature uniaxial compressions of 900-nm-diameter aluminum bi-crystals, each containing a h...
Mechanical deformation of nanopillars displays features that are distinctly different from the bulk ...
We present differences in the mechanical behavior of nanoscale gold and molybdenum single crystals. ...
The emergence of a substantial body of literature focusing on uniaxial compression experiments of mi...
Micron-sized aluminum pillars, fabricated by focused-ion beam milling, were subjected to compression...
The mechanical behavior of bicrystalline aluminum nano-pillars under uniaxial compression reveals si...
The effect of inclusion of a grain boundary in nanopillar was studied using Al bicrystal with [3 43]...
The deformation of micron-sized single-crystals is jumpy and stochastic, and this may pose potential...
Effect of solutes, crystal orientation, sample’s size, and dislocation density on the nano/microscal...
<div><p>The formation of dislocation cells has a significant impact on the strain hardening behaviou...
Nanolayered materials consisting of alternate layers of two different metals offer enhanced mechanic...
The mechanical behavior of single crystalline aluminum nano-pillars under uniaxial compression diffe...
It is by now well-known that micron-sized metallic crystals exhibit a smaller-being-stronger size ef...
We report the synthesis, mechanical properties, and deformation mechanisms of polycrystalline, plati...
We present differences in the mechanical behavior of nanoscale gold and molybdenum single crystals. ...
Room-temperature uniaxial compressions of 900-nm-diameter aluminum bi-crystals, each containing a h...
Mechanical deformation of nanopillars displays features that are distinctly different from the bulk ...
We present differences in the mechanical behavior of nanoscale gold and molybdenum single crystals. ...
The emergence of a substantial body of literature focusing on uniaxial compression experiments of mi...
Micron-sized aluminum pillars, fabricated by focused-ion beam milling, were subjected to compression...