Crystal Plasticity at Micro- and Nano-scale Dimensions

The present collection of articles focuses on the mechanical strength properties at micro- and nanoscale dimensions of body-centered cubic, face-centered cubic and hexagonal close-packed crystal structures. The advent of micro-pillar test specimens is shown to provide a new dimensional scale for the...

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Julkaistu: MDPI - Multidisciplinary Digital Publishing Institute 2022
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collection Directory of Open Access Books
description The present collection of articles focuses on the mechanical strength properties at micro- and nanoscale dimensions of body-centered cubic, face-centered cubic and hexagonal close-packed crystal structures. The advent of micro-pillar test specimens is shown to provide a new dimensional scale for the investigation of crystal deformation properties. The ultra-small dimensional scale at which these properties are measured is shown to approach the atomic-scale level at which model dislocation mechanics descriptions of crystal slip and deformation twinning behaviors are proposed to be operative, including the achievement of atomic force microscopic measurements of dislocation pile-up interactions with crystal grain boundaries or with hard surface coatings. A special advantage of engineering designs made at such small crystal and polycrystalline dimensions is the achievement of an approximate order-of-magnitude increase in mechanical strength levels. Reasonable extrapolation of macro-scale continuum mechanics descriptions of crystal strength properties at micro- to nano-indentation hardness measurements are demonstrated, in addition to reports on persistent slip band observations and fatigue cracking behaviors. High-entropy alloy, superalloy and energetic crystal properties are reported along with descriptions of deformation rate sensitivities, grain boundary structures, nano-cutting, void nucleation/growth micromechanics and micro-composite electrical properties.
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-767972024-04-09T23:15:36Z Crystal Plasticity at Micro- and Nano-scale Dimensions Armstrong, Ronald W. Elban, Wayne L. 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 thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues The present collection of articles focuses on the mechanical strength properties at micro- and nanoscale dimensions of body-centered cubic, face-centered cubic and hexagonal close-packed crystal structures. The advent of micro-pillar test specimens is shown to provide a new dimensional scale for the investigation of crystal deformation properties. The ultra-small dimensional scale at which these properties are measured is shown to approach the atomic-scale level at which model dislocation mechanics descriptions of crystal slip and deformation twinning behaviors are proposed to be operative, including the achievement of atomic force microscopic measurements of dislocation pile-up interactions with crystal grain boundaries or with hard surface coatings. A special advantage of engineering designs made at such small crystal and polycrystalline dimensions is the achievement of an approximate order-of-magnitude increase in mechanical strength levels. Reasonable extrapolation of macro-scale continuum mechanics descriptions of crystal strength properties at micro- to nano-indentation hardness measurements are demonstrated, in addition to reports on persistent slip band observations and fatigue cracking behaviors. High-entropy alloy, superalloy and energetic crystal properties are reported along with descriptions of deformation rate sensitivities, grain boundary structures, nano-cutting, void nucleation/growth micromechanics and micro-composite electrical properties. 2022-01-11T13:42:31Z 2022-01-11T13:42:31Z 2021 book ONIX_20220111_9783036508740_532 9783036508740 9783036508757 https://directory.doabooks.org/handle/20.500.12854/76797 eng image/jpeg Attribution 4.0 International https://mdpi.com/books/pdfview/book/4246 https://mdpi.com/books/pdfview/book/4246 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-0875-7 10.3390/books978-3-0365-0875-7 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036508740 9783036508757 322 Basel, Switzerland open access
spellingShingle 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
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
Crystal Plasticity at Micro- and Nano-scale Dimensions
title Crystal Plasticity at Micro- and Nano-scale Dimensions
title_full Crystal Plasticity at Micro- and Nano-scale Dimensions
title_fullStr Crystal Plasticity at Micro- and Nano-scale Dimensions
title_full_unstemmed Crystal Plasticity at Micro- and Nano-scale Dimensions
title_short Crystal Plasticity at Micro- and Nano-scale Dimensions
title_sort crystal plasticity at micro and nano scale dimensions
topic 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
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
topic_facet 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
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
url ONIX_20220111_9783036508740_532