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Wyszukujesz frazę ""SLAG"" wg kryterium: Temat


Tytuł :
Sustainable Utilization of Metals: Processing, Recovery and Recycling
Autorzy :
Friedrich, Bernd
Pokaż więcej
Temat :
laterites
scandium
leaching
precipitation
solvent extraction
manganese
Zinc
electrolytic lodes and scrapings
electrolytic manganese
metallurgy
hydrometallurgy
recycling
sustainable development
spent catalysts
zinc
copper
Bayan Obo
REE–Nb–Fe ore
carbothermal reduction
kinetics
NMC batteries
selective precipitation
Bayer process
trace elements
vanadium
gallium
rare earth elements
lanthanum
yttrium
karst bauxite
bauxite residue
red mud
indium
silver
jarosite
industrial residue
process development
selective extraction
simultaneous recovery
pyrometallurgy
lifetime of steel
steel scrap
circulation
industry sector
dynamic material flow model
recycling rate
material flow analysis
gold
WPCBs
physical separation
Tin recovery
steelmaking dust
zinc recycling
alkaline leaching
electric arc furnace
Li-ion battery
pyrolysis
microwave assisted pyrolysis
battery pre-treatment
super-gravity
rheorefining
aluminum alloy
tramp element
separation
jarosite residue
circular economy
slag valorization
metal recovery
closed-loop circulation
environmentally friendly process
enrichment of Ti
preparation for recovery
reduction of Co
thermal treatment
cold-bonded briquettes
blast furnace
desulfurization
basic oxygen furnace
dust
sludge
fines
anti-solvent crystallization
ammonium scandium hexafluoride
chemical equilibrium diagram
aluminium purification
iron removal
intermetallic formation
polythermal section
cerium
flotation
glass polishing waste
gravity separation
rare-earths
reuse
neodymium
dimethyl sulfoxide
electrodeposition
ionic liquids
scandium recovery
titanium recovery
NdFeB magnets
recycling potential
dysprosium
WPCB
melting behavior
flash smelting
cementation
copper removal
cavitation
smartphone
displays
halogenation
volatilization
thermodynamics
magnesium
refining
ultra-high purity
vacuum distillation
condensation
oxygen-depolarized cathodes
silver leaching
cryogenic pre-treatment
negative activation energy
polishing waste
rare earths
waste utilization
characterization
Dostęp URL :
https://mdpi.com/books/pdfview/book/2304
https://www.doabooks.org/doab?func=search&query=rid:46110
Książka elektroniczna
Tytuł :
Additive Manufacturing: Alloy Design and Process Innovations
Autorzy :
Konda Gokuldoss, Prashanth
Wang, Zhi
Pokaż więcej
Temat :
concrete
slag
valorization
cement
circular economy
wire feeding additive manufacturing
wire lateral feeding
macro defects
side spatters
selective laser melting
numerical analysis
thermal behaviour
AlSi10Mg alloy
design
disc brake
3D metal printing
direct metal laser sintering
thermal stress analysis
radial grooves
nickel alloys
Hastelloy X alloy
additive manufacturing
microstructure
scanning electron microscopy (SEM)
laser powder bed fusion (LPBF)
titanium alloy
heat treatment
microhardness measurement
arc additive manufacturing
Al–5Si alloy
pulse frequency
arc current
porosity
2219 aluminum alloy
constitutive model
microstructural evolution
continuous dynamic recrystallization
hot deformation
amorphous alloy
finite element analysis
residual stress
intermediate thermo-mechanical treatment
storage energy
CuAl2 phase
grain refinement
GH4169
temperature and stress fields
simulation
model
divisional scanning
deformation
thermal conductivity
tensile strength
inoculation
gray cast iron
AlSi10Mg
Al6061
SLM process parameters
performance characteristics
multi-laser manufacturing
mechanical property
metal powders
powder flowability
powder properties
aluminum
water absorption
laser cladding deposition
12CrNi2 alloy steel powder
substrate preheating
microstructure and properties
ultrafast laser
femtosecond
ablation
scanning
additive surface structuring
hydrophobicity
parts design
fused filament fabrication
fatigue
Taguchi
ABS
quality of the as-built parts
aluminum alloys
selective laser melting (SLM)
mechanical properties
H13 tool steel
process parameters
scanning strategy
support strategy
porosity reduction
Ti6Al4V alloy
martensitic transformation
texture evolution
M300 mold steel
elastic abrasive
PSO-BP neural network algorithm
parameter optimization
WxNbMoTa
refractory high-entropy alloy
rapid solidification
bulk metallic glasses
Cu50Zr43Al7
Ti-6Al-4V
wear
properties
in-process temperature in MPBAM
analytical modeling
high computational efficiency
molten pool evolution
laser power absorption
latent heat
powder packing
graphene nano-sheets (GNSs)
epoxy solder
intermetallic compound (IMC)
laser powder bed fusion
composition
localized inductive heating
hot stamping steel blanks
tailored properties
magnetizer
dynamic properties
impact
crystallographic texture
Additive manufacturing
volumetric heat source
thermal capillary effects
melt pool size
Inconel 718
subgranular dendrites
epitaxial growth
3D printing
continuous carbon fiber
thermosetting epoxy resin
Powder bed
Hot Isostatic Pressure
Electron Beam Melting
stability lobe diagram
milling
process-damping
dynamic characteristics
thin-walled weak rigidity parts
Al–Si
defects
laser energy density
molten pool dynamic behavior
equivalent processing model
workpiece scale
nickel-based superalloy
numerical simulation
metallic glasses
composite materials
interfaces
ultrasonic bonding
Al–Mg–Si alloy
quenching rate
microstructures
paint bake-hardening
precipitates
powder bed fusion
regular mixing
ball milling
flowability
element segregation
laves phase
vanadium
laser cladding
arc additive manufacture
Al–Mg alloy
Mg content
Dostęp URL :
https://mdpi.com/books/pdfview/book/2188
https://www.doabooks.org/doab?func=search&query=rid:46013
Książka elektroniczna
Tytuł :
Additive Manufacturing: Alloy Design and Process Innovations
Autorzy :
Konda Gokuldoss, Prashanth
Wang, Zhi
Pokaż więcej
Temat :
concrete
slag
valorization
cement
circular economy
wire feeding additive manufacturing
wire lateral feeding
macro defects
side spatters
selective laser melting
numerical analysis
thermal behaviour
AlSi10Mg alloy
design
disc brake
3D metal printing
direct metal laser sintering
thermal stress analysis
radial grooves
nickel alloys
Hastelloy X alloy
additive manufacturing
microstructure
scanning electron microscopy (SEM)
laser powder bed fusion (LPBF)
titanium alloy
heat treatment
microhardness measurement
arc additive manufacturing
Al–5Si alloy
pulse frequency
arc current
porosity
2219 aluminum alloy
constitutive model
microstructural evolution
continuous dynamic recrystallization
hot deformation
amorphous alloy
finite element analysis
residual stress
intermediate thermo-mechanical treatment
storage energy
CuAl2 phase
grain refinement
GH4169
temperature and stress fields
simulation
model
divisional scanning
deformation
thermal conductivity
tensile strength
inoculation
gray cast iron
AlSi10Mg
Al6061
SLM process parameters
performance characteristics
multi-laser manufacturing
mechanical property
metal powders
powder flowability
powder properties
aluminum
water absorption
laser cladding deposition
12CrNi2 alloy steel powder
substrate preheating
microstructure and properties
ultrafast laser
femtosecond
ablation
scanning
additive surface structuring
hydrophobicity
parts design
fused filament fabrication
fatigue
Taguchi
ABS
quality of the as-built parts
aluminum alloys
selective laser melting (SLM)
mechanical properties
H13 tool steel
process parameters
scanning strategy
support strategy
porosity reduction
Ti6Al4V alloy
martensitic transformation
texture evolution
M300 mold steel
elastic abrasive
PSO-BP neural network algorithm
parameter optimization
WxNbMoTa
refractory high-entropy alloy
rapid solidification
bulk metallic glasses
Cu50Zr43Al7
Ti-6Al-4V
wear
properties
in-process temperature in MPBAM
analytical modeling
high computational efficiency
molten pool evolution
laser power absorption
latent heat
powder packing
graphene nano-sheets (GNSs)
epoxy solder
intermetallic compound (IMC)
laser powder bed fusion
composition
localized inductive heating
hot stamping steel blanks
tailored properties
magnetizer
dynamic properties
impact
crystallographic texture
Additive manufacturing
volumetric heat source
thermal capillary effects
melt pool size
Inconel 718
subgranular dendrites
epitaxial growth
3D printing
continuous carbon fiber
thermosetting epoxy resin
Powder bed
Hot Isostatic Pressure
Electron Beam Melting
stability lobe diagram
milling
process-damping
dynamic characteristics
thin-walled weak rigidity parts
Al–Si
defects
laser energy density
molten pool dynamic behavior
equivalent processing model
workpiece scale
nickel-based superalloy
numerical simulation
metallic glasses
composite materials
interfaces
ultrasonic bonding
Al–Mg–Si alloy
quenching rate
microstructures
paint bake-hardening
precipitates
powder bed fusion
regular mixing
ball milling
flowability
element segregation
laves phase
vanadium
laser cladding
arc additive manufacture
Al–Mg alloy
Mg content
Dostęp URL :
https://mdpi.com/books/pdfview/book/2187
https://www.doabooks.org/doab?func=search&query=rid:46012
Książka elektroniczna
Tytuł :
Ironmaking and Steelmaking
Autorzy :
Li, Zushu
Davis, Claire
Pokaż więcej
Temat :
ironmaking
microwaves
carbothermal reduction
iron oxides
emission spectrum
ore-carbon briquette
CO–CO2 atmosphere
simulation
re-oxidation
reduction
electroslag cladding
high speed steel
ductile cast iron
composite roll
bonding interface
high-phosphorus iron ore
fluorapatite
vaporization dephosphorization
iron ore pellets
compressive strength (CS)
prediction model
artificial neural network
principal component analysis
crystallization behaviors
crystallization rate
anosovite crystals
silicate crystals
titanium slag
blast furnace
copper stave
hydrogen attack
slag crust
heat-affected zone
high heat input welding
Ca deoxidation
inclusion control
intragranular acicular ferrite
concentrate
iron ore
agglomerate
structure
phase analysis
Mg deoxidation
inclusions
Al addition
high-heat-input welding
toughness
shot peening
Barkhausen noise
crystallite size
carbon composite pellet
direct reduction
shrinkage
kinetics
rotary hearth furnace
hydrogen plasma
smelting reduction
HPSR
iron oxide
plasma arc
ionization degree
sulfur distribution ratio
liquid area
carbon-saturated iron
phosphate capacity
sulfide capacity
phosphorus distribution ratio
evaluation of coupling relationship
secondary refining process, CaO–based slags
iron sulfate
TG analysis
thermal treatment
activation energy
high-aluminum iron ore
synergistic reduction
high-manganese iron ore
hercynite
fayalite
flow velocity
casting speed
gas flow rate
flow pattern
continuous casting
Cr recovery
self-reduction briquette
reaction mechanism
mold flux
low fluorine
internal crack
surface roughness
slag film
vanadium titano-magnetite
gas-based reduction
carbon monoxide
hydrogen
and nitrogen
pellet size
liquid steel
non-contact measurement
oxides
steel-making
solid flow
cold experiment
direct element method
Wilcox–Swailes coefficient
viscosity
BaO
CaO/Al2O3 ratio
modified NPL model
ultrafine particles exposure
steelmaking factory
chemical composition
devolatilization
torrefied biomass
bio-coal
volatile matter
iso-conversional method
Al-TRIP steel
surface depression
cracks
non-metallic inclusion
reactivity
hot metal pre-treatment
desiliconisation
dephosphorisation
solid and gaseous oxygen
fork
flat steel
33MnCrTiB
slag
carbon dioxide
injection
converter
combustion
oxygen steelmaking
refining kinetics
slag formation
penetration theory
oxygen blast furnace
COREX
static process model
integrated steel plant
material flow
energy consumption
CO2 emissions
oil-pipeline steel
Ca-treatment
non-metallic inclusions
electrolytic extraction
corrosion
Dostęp URL :
https://mdpi.com/books/pdfview/book/1484
https://www.doabooks.org/doab?func=search&query=rid:42685
Książka elektroniczna
Tytuł :
Clean Energy and Fuel (Hydrogen) Storage
Autorzy :
Stefanakos, Elias
Srinivasan, Sesha
Pokaż więcej
Temat :
dye-sensitized solar cells
carbon materials
Ag nanoparticles
freestanding TiO2 nanotube arrays
gas turbine engine
lean direct injection
four-point
low emissions combustion
carbonate gas reservoirs
water invasion
recovery factor
aquifer size
production rate
hydrogen storage
complex hydrides
nanocatalyst
LiNH2
MgH2
ball milling
Li-ion batteries
nanocomposite materials
cathode
anode
binder
separator
ionic liquid
vertically oriented graphene
electrical double layers
charge density
capacitance
gas storage
material science
rock permeability
synthetic rock salt testing
Klinkenberg method
hydrogen storage systems
hydrogen absorption
thermochemical energy storage
metal hydride
magnetism
heat transfer enhancement
Power to Liquid
Fischer–Tropsch
dynamic modeling
lab-scale
lithium-ion batteries
simplified electrochemical model
state of charge estimator
extended kalman filter
hot summer and cold winter area
PCM roof
comprehensive incremental benefit
conjugate phase change heat transfer
lattice Boltzmann method
large-scale wind farm
auxiliary services compensation
battery energy storage system
optimal capacity
equivalent loss of cycle life
porous media
bacterial sulfate reduction
methanogenesis
gas loss
diffusion
reactive transport modeling
PHREEQC
energy discharge
bubbles burst
bubbles transportation
crystal growth rates
undercooling
salt cavern
leaching tubing
flutter instability
flow-induced vibration
internal and reverse external axial flows
thermal energy storage (TES)
slag
regenerator
concentrated solar power (CSP)
quality function deployment (QFD)
failure mode and effect analysis (FMEA)
thermal energy storage
electrochemical energy storage
hydrogen energy storage
salt cavern energy storage
Dostęp URL :
https://mdpi.com/books/pdfview/book/1711
https://www.doabooks.org/doab?func=search&query=rid:42583
Książka elektroniczna
Tytuł :
New Trends in Recycled Aggregate Concrete
Autorzy :
de Brito, Jorge
Poon, Chi Sun
Zhan, Baojian
Pokaż więcej
Temat :
reactive power concrete
shrinkage
creep
steel fibre
model
compressive strength
models
geological nature of aggregates
quality of aggregates
concrete
recycled aggregates
seismic load
strain rate
fiber-reinforced concrete
dynamic mechanical property
recycled aggregate quality
bond strength
shear behavior
aggregate interlock mechanism
size effect
ready-mixed concrete
recycled concrete aggregates
returned concrete
concrete sludge fines
soil stabilization
recycled aggregate
recycled aggregate concrete
artificial neural networks
aggregate characteristic
input variable
recycled concrete
aggregate
mixture proportioning
flexural behavior
recycling
heavyweight waste glass
cyclic load
reinforced concrete member
recycled aggregate concrete (RAC)
steel reinforced recycled aggregate concrete (SRRAC)
elevated temperature
residual properties
recycled coarse aggregate concrete
nylon fiber
mechanical properties
permeability
microstructure
foam concrete
cellular concrete
ceramic foam
modulus
crushing
energy absorbing
CT
foam structure
foam stability
life cycle assessment
environmental impact
recycled concrete aggregate
crumb rubber
crushed glass
tensile splitting strength
water absorption
aggregates
fly-ash
silica fume
blast-furnace slag
reinforced concrete
columns
seismic performance
numerical analysis
variable sensitivity
construction waste
mechanical characteristics
durable characteristics
Dostęp URL :
https://mdpi.com/books/pdfview/book/1426
https://www.doabooks.org/doab?func=search&query=rid:35906
Książka elektroniczna
Tytuł :
Environment-Friendly Construction Materials
Autorzy :
Wu, Shaopeng
Hoff, Inge
Amirkhanian, Serji
Xiao, Yue
Pokaż więcej
Temat :
Ca-alginate microcapsules
microfluidic
self-healing
bitumen
mineral-asphalt mixtures
aggregate from sanitary ceramic wastes
environmentally friendly construction materials
diatomite
styrene–butadiene–styrene (SBS) modified bitumen
diatomite-modified asphalt mixture
road engineering
fatigue life
three-point bending fatigue test
asphalt mixture
plateau value of permanent deformation ratio
damage evolution
fatigue equation
ultraviolet radiation
aging depth
transmittance
permeation
expanded graphite
polyethylene glycol
phase change materials
titanate coupling agent
molecular bridge
building envelopes
thermal property
building energy conservation
reclaimed asphalt pavement
recycling
epoxidized soybean oil
rejuvenator
diffusing
asphalt pavement
fatigue property
pavement failure
long-term field service
microwave heating
induction heating
effective heating depth
induced healing
initial self-healing temperature
asphalt mastic
flow behavior index
steel slag
limestone
aggregate morphology
aggregate image measurement system
micro-surfacing
skid-resistance
surface texture
asphalt
water solute exposure
aqueous solute compositions
chemical evolutions
rheological properties
polyacrylic acid
fluidity
rheology
adsorption
combination
cement emulsified asphalt mixture
fatigue performance
thickness combinations
X-ray computed tomography
artificial neural network
crumb rubber
high-strength concrete
damping
dynamic moduli
railway application
recycled material
sanitary ceramics
concrete
recycling aggregate
basalt fiber
response surface methodology
design optimization
fluorescence spectrum
ageing
parametrization
“blue-shift”
asphalt mortar
healing agents
crack healing
healing model
ultra-thin wearing course
steel fiber
rankinite
carbonation
waste concrete
CO2
aged bitumen
solubilizer
colloidal structure
micro-morphology
granite aggregate
desulphurization gypsum residues
rubber modified asphalt
pavement performance
limestone aggregates
emulsified asphalt
demulsification speed
surface energy
specific surface area
artificially aged asphalt mixture
durability
dynamic characteristics
overlay tester
energy-based approach
dissipated strain energy
plateau value of dissipated strain energy ratio
amorphous silica
crystallization sensitivity
water-leaching pretreatment
rice husk ash
cement
anti-rutting agent
flexibility
field evaluation
asphalt mixes
aggregate characteristics
simplex lattice design
viscoelastic properties
asphalt combustion
flame retardant
aluminum hydroxide
layered double hydroxide
creep
relaxation
aggregates
morphology
crumb rubber powder
SBS/CRP-modified bitumen
aging processes
temperature sensitivity characteristics
low-temperature
damage constitutive model
graphene
nitrogen and phosphorus removal
MDA
SOD
sequencing batch Chlorella reactor
SEM
thermal–mechanical properties
bio-oil
regeneration
aged asphalt
molecular dynamic simulation
viscoelasticity
nanomaterial
hydrophobic nanosilica
hydrophilic nanosilica
laboratory evaluation
compound modify
freeze-thaw cycle
damage characteristics
high-modulus asphalt mixture (HMAM)
dynamic tests
dynamic responses
resistance to deformations
tensile strains
tensile stresses
sensitivity analysis
hot mix asphalt containing recycled concrete aggregate
contact angle
adhesion energy
water stability
self-compacting concrete (SCC)
workability
pozzolanic reaction
microstructure
Ultra-High Performance Concrete (UHPC)
long-term drying shrinkage
hydration characteristic
porous pumice
optimization
engineered cementitious composites (ECC)
polyvinyl alcohol
fiber modification
mechanical behavior
rejuvenation
calcium alginate capsules
asphalt-aggregate adhesion
plant ash lixivium
stripping test
interfacial transition zone
SBS-modified bitumen
rejuvenating systems
physical properties
viscous-elastic temperature
rutting factor
vibration noise consumption
cold recycled asphalt mixture
mastic
construction materials
ageing resistance
modified asphalt materials
self-healing asphalt
ultra-high performance concrete
Dostęp URL :
https://mdpi.com/books/pdfview/book/1359
https://www.doabooks.org/doab?func=search&query=rid:33692
Książka elektroniczna
Tytuł :
Environment-Friendly Construction Materials
Autorzy :
Wu, Shaopeng
Hoff, Inge
Amirkhanian, Serji
Xiao, Yue
Pokaż więcej
Temat :
Ca-alginate microcapsules
microfluidic
self-healing
bitumen
mineral-asphalt mixtures
aggregate from sanitary ceramic wastes
environmentally friendly construction materials
diatomite
styrene–butadiene–styrene (SBS) modified bitumen
diatomite-modified asphalt mixture
road engineering
fatigue life
three-point bending fatigue test
asphalt mixture
plateau value of permanent deformation ratio
damage evolution
fatigue equation
ultraviolet radiation
aging depth
transmittance
permeation
expanded graphite
polyethylene glycol
phase change materials
titanate coupling agent
molecular bridge
building envelopes
thermal property
building energy conservation
reclaimed asphalt pavement
recycling
epoxidized soybean oil
rejuvenator
diffusing
asphalt pavement
fatigue property
pavement failure
long-term field service
microwave heating
induction heating
effective heating depth
induced healing
initial self-healing temperature
asphalt mastic
flow behavior index
steel slag
limestone
aggregate morphology
aggregate image measurement system
micro-surfacing
skid-resistance
surface texture
asphalt
water solute exposure
aqueous solute compositions
chemical evolutions
rheological properties
polyacrylic acid
fluidity
rheology
adsorption
combination
cement emulsified asphalt mixture
fatigue performance
thickness combinations
X-ray computed tomography
artificial neural network
crumb rubber
high-strength concrete
damping
dynamic moduli
railway application
recycled material
sanitary ceramics
concrete
recycling aggregate
basalt fiber
response surface methodology
design optimization
fluorescence spectrum
ageing
parametrization
“blue-shift”
asphalt mortar
healing agents
crack healing
healing model
ultra-thin wearing course
steel fiber
rankinite
carbonation
waste concrete
CO2
aged bitumen
solubilizer
colloidal structure
micro-morphology
granite aggregate
desulphurization gypsum residues
rubber modified asphalt
pavement performance
limestone aggregates
emulsified asphalt
demulsification speed
surface energy
specific surface area
artificially aged asphalt mixture
durability
dynamic characteristics
overlay tester
energy-based approach
dissipated strain energy
plateau value of dissipated strain energy ratio
amorphous silica
crystallization sensitivity
water-leaching pretreatment
rice husk ash
cement
anti-rutting agent
flexibility
field evaluation
asphalt mixes
aggregate characteristics
simplex lattice design
viscoelastic properties
asphalt combustion
flame retardant
aluminum hydroxide
layered double hydroxide
creep
relaxation
aggregates
morphology
crumb rubber powder
SBS/CRP-modified bitumen
aging processes
temperature sensitivity characteristics
low-temperature
damage constitutive model
graphene
nitrogen and phosphorus removal
MDA
SOD
sequencing batch Chlorella reactor
SEM
thermal–mechanical properties
bio-oil
regeneration
aged asphalt
molecular dynamic simulation
viscoelasticity
nanomaterial
hydrophobic nanosilica
hydrophilic nanosilica
laboratory evaluation
compound modify
freeze-thaw cycle
damage characteristics
high-modulus asphalt mixture (HMAM)
dynamic tests
dynamic responses
resistance to deformations
tensile strains
tensile stresses
sensitivity analysis
hot mix asphalt containing recycled concrete aggregate
contact angle
adhesion energy
water stability
self-compacting concrete (SCC)
workability
pozzolanic reaction
microstructure
Ultra-High Performance Concrete (UHPC)
long-term drying shrinkage
hydration characteristic
porous pumice
optimization
engineered cementitious composites (ECC)
polyvinyl alcohol
fiber modification
mechanical behavior
rejuvenation
calcium alginate capsules
asphalt-aggregate adhesion
plant ash lixivium
stripping test
interfacial transition zone
SBS-modified bitumen
rejuvenating systems
physical properties
viscous-elastic temperature
rutting factor
vibration noise consumption
cold recycled asphalt mixture
mastic
construction materials
ageing resistance
modified asphalt materials
self-healing asphalt
ultra-high performance concrete
Dostęp URL :
https://mdpi.com/books/pdfview/book/1358
https://www.doabooks.org/doab?func=search&query=rid:33691
Książka elektroniczna
Tytuł :
Environment-Friendly Construction Materials
Autorzy :
Wu, Shaopeng
Hoff, Inge
Amirkhanian, Serji
Xiao, Yue
Pokaż więcej
Temat :
Ca-alginate microcapsules
microfluidic
self-healing
bitumen
mineral-asphalt mixtures
aggregate from sanitary ceramic wastes
environmentally friendly construction materials
diatomite
styrene–butadiene–styrene (SBS) modified bitumen
diatomite-modified asphalt mixture
road engineering
fatigue life
three-point bending fatigue test
asphalt mixture
plateau value of permanent deformation ratio
damage evolution
fatigue equation
ultraviolet radiation
aging depth
transmittance
permeation
expanded graphite
polyethylene glycol
phase change materials
titanate coupling agent
molecular bridge
building envelopes
thermal property
building energy conservation
reclaimed asphalt pavement
recycling
epoxidized soybean oil
rejuvenator
diffusing
asphalt pavement
fatigue property
pavement failure
long-term field service
microwave heating
induction heating
effective heating depth
induced healing
initial self-healing temperature
asphalt mastic
flow behavior index
steel slag
limestone
aggregate morphology
aggregate image measurement system
micro-surfacing
skid-resistance
surface texture
asphalt
water solute exposure
aqueous solute compositions
chemical evolutions
rheological properties
polyacrylic acid
fluidity
rheology
adsorption
combination
cement emulsified asphalt mixture
fatigue performance
thickness combinations
X-ray computed tomography
artificial neural network
crumb rubber
high-strength concrete
damping
dynamic moduli
railway application
recycled material
sanitary ceramics
concrete
recycling aggregate
basalt fiber
response surface methodology
design optimization
fluorescence spectrum
ageing
parametrization
“blue-shift”
asphalt mortar
healing agents
crack healing
healing model
ultra-thin wearing course
steel fiber
rankinite
carbonation
waste concrete
CO2
aged bitumen
solubilizer
colloidal structure
micro-morphology
granite aggregate
desulphurization gypsum residues
rubber modified asphalt
pavement performance
limestone aggregates
emulsified asphalt
demulsification speed
surface energy
specific surface area
artificially aged asphalt mixture
durability
dynamic characteristics
overlay tester
energy-based approach
dissipated strain energy
plateau value of dissipated strain energy ratio
amorphous silica
crystallization sensitivity
water-leaching pretreatment
rice husk ash
cement
anti-rutting agent
flexibility
field evaluation
asphalt mixes
aggregate characteristics
simplex lattice design
viscoelastic properties
asphalt combustion
flame retardant
aluminum hydroxide
layered double hydroxide
creep
relaxation
aggregates
morphology
crumb rubber powder
SBS/CRP-modified bitumen
aging processes
temperature sensitivity characteristics
low-temperature
damage constitutive model
graphene
nitrogen and phosphorus removal
MDA
SOD
sequencing batch Chlorella reactor
SEM
thermal–mechanical properties
bio-oil
regeneration
aged asphalt
molecular dynamic simulation
viscoelasticity
nanomaterial
hydrophobic nanosilica
hydrophilic nanosilica
laboratory evaluation
compound modify
freeze-thaw cycle
damage characteristics
high-modulus asphalt mixture (HMAM)
dynamic tests
dynamic responses
resistance to deformations
tensile strains
tensile stresses
sensitivity analysis
hot mix asphalt containing recycled concrete aggregate
contact angle
adhesion energy
water stability
self-compacting concrete (SCC)
workability
pozzolanic reaction
microstructure
Ultra-High Performance Concrete (UHPC)
long-term drying shrinkage
hydration characteristic
porous pumice
optimization
engineered cementitious composites (ECC)
polyvinyl alcohol
fiber modification
mechanical behavior
rejuvenation
calcium alginate capsules
asphalt-aggregate adhesion
plant ash lixivium
stripping test
interfacial transition zone
SBS-modified bitumen
rejuvenating systems
physical properties
viscous-elastic temperature
rutting factor
vibration noise consumption
cold recycled asphalt mixture
mastic
construction materials
ageing resistance
modified asphalt materials
self-healing asphalt
ultra-high performance concrete
Dostęp URL :
https://mdpi.com/books/pdfview/book/1357
https://www.doabooks.org/doab?func=search&query=rid:33690
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