Crystal Plasticity at Micro- and Nano-scale Dimensions
English[eng]
9783040000000
crystal strength||micro-crystals||nano-crystals||nano-polycrystals||nano-wires||whiskers||pillars||dislocations||hardness||crystal size dependencies||fracture||strain rate sensitivity||temperature effect||indentation size effect||theoretical model||nano-indentation||crack growth||dislocation models||pile-ups||kitagawa-takahashi diagram||fracture mechanics||internal stresses||molecular dynamics simulations||BCC Fe nanowires||twin boundaries||de-twinning||micromechanical testing||micro-pillar||bi-crystal||discrete dislocation pile-up||grain boundary||free surface||anisotropic elasticity||crystallographic slip||molecular dynamics||nanocutting||iron||cutting theory||ab initio calculations||hydrogen embrittlement||cohesive strength||multiaxial loading||strain rate||molecular dynamics simulation||activation volume||grain growth||indentation creep||size effect||geometrically necessary dislocations||FeCrAl||micropillar||dislocation||strain hardening||crystal plasticity simulations||persistent slip band||surface hard coating||fatigue crack initiation||fatigue||cyclic deformation||internal stress||copper single crystal||rafting behavior||phase-field simulation||crystal plasticity theory||mechanical property||ultrafine-grained materials||intermetallic compounds||B2 phase||strain hardening behavior||synchrotron radiation X-ray diffraction||HMX||elastic properties||linear complexions||strength||lattice distortive transformations||dislocation emission||grain boundaries||nanomaterials||Hall-Petch relation||metals and alloys||interfacial delamination||nucleation||void formation||cracking||alloys||nanocrystalline||thermal stability||IN718 alloy||dislocation plasticity||twinning||miniaturised testing||in situ electron microscopy||magnesium||anode||tin sulfide||lithium ion battery||conversion reaction||nanoflower||rapid solidification||compression