Pages that link to "Item:Q2021900"

The following pages link to A concurrent atomistic-crystal plasticity multiscale model for crack propagation in crystalline metallic materials (Q2021900):

Displaying 9 items.

• A theoretical model for the electromagnetic radiation emission during plastic deformation and crack propagation in metallic materials (Q604299) (← links)
• Moving window techniques to model shock wave propagation using the concurrent atomistic-continuum method (Q2072461) (← links)
• A multiscale model for the ductile fracture of crystalline materials (Q2565868) (← links)
• A concurrent multiscale method based on smoothed molecular dynamics for large-scale parallel computation at finite temperature (Q2686898) (← links)
• Investigating shock wave propagation, evolution, and anisotropy using a moving window concurrent atomistic-continuum framework (Q2692905) (← links)
• A multiscale approach for modeling scale-dependent yield stress in polycrystalline metals (Q3445929) (← links)
• Atomistic modelling of fatigue crack growth and dislocation structuring in FCC crystals (Q3502117) (← links)
• Efficient a posteriori error control of a concurrent multiscale method with sharp interface for crystalline defects (Q6084623) (← links)
• Crack tip enhanced phase-field model for crack evolution in crystalline Ti6Al from concurrent crystal plasticity FE-molecular dynamics simulations (Q6105182) (← links)