Pages that link to "Item:Q612478"

The following pages link to Coupling effects of void size and void shape on the growth of prolate ellipsoidal microvoid (Q612478):

Displaying 11 items.

• Combined effects of void shape and void size -- oblate spheroidal microvoid embedded in infinite nonlinear solid (Q704164) (← links)
• Void growth due to creep and grain boundary diffusion at high triaxialities (Q1354914) (← links)
• Scale-dependent plasticity potential of porous materials and void growth. (Q1422929) (← links)
• The coupled effects of plastic strain gradient and thermal softening on the dynamic growth of voids. (Q1430817) (← links)
• Size effects on stress concentration induced by a prolate ellipsoidal particle and void nucleation mechanism (Q1779863) (← links)
• Effect of shape on void growth: a coupled extended finite element method (XFEM) and discrete dislocation plasticity (DDP) study (Q2063436) (← links)
• Influences of particle size and interface energy on the stress concentration induced by the oblate spheroidal particle and the void nucleation mechanism (Q2455966) (← links)
• On the micromechanics of void growth by prismatic-dislocation loop emission (Q2456879) (← links)
• Size effects on void growth in single crystals with distributed voids (Q2475202) (← links)
• RVE-based studies on the coupled effects of void size and void shape on yield behavior and void growth at micron scales (Q2495885) (← links)
• A study of the void size effect based on the Taylor dislocation model (Q2565867) (← links)