The role of confinement on stress-driven grain boundary motion in nanocrystalline aluminum thin films

Abstract: The role of confinement on stress-driven grain boundary motion in nanocrystalline aluminum thin films 3D molecular dynamics simulations are performed to investigate the role of microstructural confinement on room temperature stress-driven grain boundary (GB) motion for a general population of GBs in nanocrystalline Al thin films. Detailed analysis and comparison with experimental results reveal how coupled GB migration and GB sliding are manifested in realistic nanoscale networks of GBs. The proximity of free … Show more

“…In small-grained metals, numerous experimental studies have provided convincing evidence that stress-assisted GB migration induces grain growth even at low temperature [1][2][3][4][5][6][7][8][9]. Contrary to lattice dislocation mechanisms, which have been well documented, GB migration under stress operates by different "coupling modes" [10][11][12][13] that may depend on the GB structure.…”

The role of disconnections in deformation-coupled grain boundary migration

“…In small-grained metals, numerous experimental studies have provided convincing evidence that stress-assisted GB migration induces grain growth even at low temperature [1][2][3][4][5][6][7][8][9]. Contrary to lattice dislocation mechanisms, which have been well documented, GB migration under stress operates by different "coupling modes" [10][11][12][13] that may depend on the GB structure.…”

The role of disconnections in deformation-coupled grain boundary migration

“…In addition, we always observe mechanically-induced grain growth with our strain localization here, but such behavior could also be influence by sample size. Using MD simulations of thin film geometries, Gianola et al 55 found that mechanically-induced grain coarsening is substantially enhanced near free surfaces and multiple authors showed that this surface effect occurs over a length that is roughly the order of the grain size. 55,65 Our goal here is to check that our observations are not an artifact of our relatively limited sample size.…”

Strain localization in a nanocrystalline metal: Atomic mechanisms and the effect of testing conditions

“…As such, a 23 nm mean grain size provided a good compromise between small grain size and a distance of about one grain diameter from the surface [256]. In our samples, the presence of many grains through the film thickness limits the importance of any free surface effects.…”

Local Crystallographic Orientation Correlation Measurements Connecting the Processing and Properties of Face-Centered Cubic Metals