IAFSE-SEMTE: Adaptive Intelligent Materials and Systems Center (AIMS)

Fingerprint Dive into the research topics where IAFSE-SEMTE: Adaptive Intelligent Materials and Systems Center (AIMS) is active. These topic labels come from the works of this organization's members. Together they form a unique fingerprint.

Engineering & Materials Science

Composite materials
Sensors
Fatigue of materials
Structural health monitoring
Feature extraction
Cracks
Fatigue crack propagation
Fatigue damage
Nanocomposites
Experiments
Damage detection
Microstructure
Carbon nanotubes
Composite structures
Delamination
Guided electromagnetic wave propagation
Crack propagation
Molecular dynamics
Polymers
Polymer matrix composites
Laminates
Micromechanics
Monitoring
Fading channels
Computer simulation
Target tracking
Communication
Surface waves
Fibers
Cements
Strain rate
Nanoparticles
Binders
Processing
Phase change materials
Plasticity
Epoxy resins
Water
Mechanical properties
Wave propagation
Learning systems
Grain boundaries
Concretes
Limestone
Fly ash
Temperature
Labels
Fusion reactions
Decomposition
Portland cement
Signal to noise ratio
Radar
Signal processing
Degradation
Carbon fibers
Wireless sensor networks
Crack tips
Physics
Lasers
Plastics
Scour
Health
Aluminum
Slags
Polymer matrix
Data mining
Corrosion
Antennas
Scheduling
Ionic liquids
Finite element method
Thermosets
State estimation
Geometry
Substrates
Recommender systems
Sensor networks
Social sciences
Silicon
Silicates
Yield stress
Outages
Blogs
Testing
Nucleation
Elastic moduli
Laminated composites
Polystyrenes
Anodes
Copper
Electric network analysis
Metals
Electronic equipment
Lithium
Underwater acoustics
Thermal conductivity
Stiffness
Buckling
Pore structure
Statistics

Chemical Compounds

Composite materials
Carbon Nanotubes
Cracks
Polymers
Structural health monitoring
Molecular dynamics
Microstructure
Fatigue of materials
Nanocomposites
Coal Ash
Damage detection
Silicon
Nanoparticles
Fatigue crack propagation
Calcium Carbonate
Water
Cements
Ionic Liquids
Alkalies
Guided electromagnetic wave propagation
Binders
Sensors
Phase change materials
Crack propagation
Fatigue damage
Epoxy Resins
Strain rate
Polymer matrix composites
Composite structures
Computer simulation
Temperature
Surface waves
Mechanical properties
Concretes
Ointments
Portland cement
Metals
Delamination
Plasticity
Slags
Fibers
Powders
Laminates
Polystyrenes
Polymer matrix
Micromechanics
Wave propagation
Copper
Lithium
Thermosets
Aluminum
Grain boundaries
Plastics
Crack tips
Yield stress
Hydration
Pore structure
Carbonates
Experiments
Anodes
Silicates
Cyclobutanes
Fillers
Electronic equipment
Substrates
Carbon
Mortar
Ions
Electrodes
Decomposition
Nucleation
Acoustic impedance
Geometry
Self assembly
Thin films
Graphite
Chemical activation
Rheology
Photocatalysts
Lanthanum
Elastic moduli
Hydrogels
Thermal conductivity
Garnets
Buckling
Porosity
Volume fraction
Sulfates
Tomography
Corrosion
Crack initiation
Emulsions
Degradation
Oils
Constitutive models
Nitrides
Emulsion polymerization
Minerals
Finite element method
Continuum damage mechanics

Physics & Astronomy

General

damage
sensors
cracks
buckling
simulation
microstructure
shock
lugs
molecular dynamics
structural health monitoring
grain boundaries
thin films
methodology
voids
electronics
decomposition
prognosis
composite structures
metals
plastics
fibers

Chemistry and Materials

composite materials
polymers
lithium
mechanical properties
silicon
gels
plastic properties
water
liquids
nanocomposites
copper

Engineering

electric batteries
carbon nanotubes
electrodes
self assembly

Physics

Lamb waves
waveforms
nanoparticles
ions
strain rate
nuclear fuels

Mathematical and Computer Sciences

matrices