Pages that link to "Item:Q399557"

The following pages link to Combined grain size, strain rate and loading condition effects on mechanical behavior of nanocrystalline Cu under high strain rates (Q399557):

Displaying 12 items.

• Effect of special rotational deformation on dislocation emission from interface collinear crack tip in nanocrystalline bi-materials (Q310780) (← links)
• The ``inverse Hall-Petch'' effect on the impact response of single crystal copper (Q399541) (← links)
• Investigating the deformation of nanocrystalline copper with microscale kinematic metrics and molecular dynamics (Q443676) (← links)
• A study of mechanical properties of pure and nitrogen-doped ultrananocrystalline diamond films under various loading conditions (Q545034) (← links)
• The loading history and crystal orientation effects on the size-dependency of single crystal diamond properties (Q836174) (← links)
• A mesoscale investigation of strain rate effect on dynamic deformation of single-crystal copper (Q837354) (← links)
• Molecular dynamics study of size, temperature and rate dependent thermomechanical properties of copper nanofilms (Q985978) (← links)
• The effects of stress concentrators on strength of materials at nanoscale: a molecular dynamics study (Q986862) (← links)
• Grain size, strain rate, and temperature dependence of flow stress in ultra-fine grained and nanocrystalline Cu and Al: Synthesis, experiment, and constitutive modeling (Q1013918) (← links)
• Analyses of tensile deformation of nanocrystalline \(\alpha-\text{Fe}_2\text{O}_3+fcc-\)Al composites using molecular dynamics simulations (Q1025777) (← links)
• An investigation of the combined size and rate effects on the mechanical responses of FCC metals (Q2382544) (← links)
• A secant-viscosity composite model for the strain-rate sensitivity of nanocrystalline materials (Q2469696) (← links)