Material Science
Polyurethane
100%
Foam
80%
Composite Material
70%
Carbon Fiber
66%
Finite Element Methods
66%
Microstructure
66%
Montmorillonite
66%
Carbon Nanotubes
66%
Water
50%
Density
49%
Materials Property
38%
Fiber
35%
Nanocomposite Foam
33%
Cordierite
33%
Mullite
33%
Characterization
33%
Aluminum Oxide
33%
Particle Reinforced Composites
33%
Thermal Conductivity
33%
Matrix Composite
33%
Iron
33%
Elastic Property
33%
Clay
33%
X-Ray Microtomography
18%
Mechanical Impact
16%
Glass Transition Temperature
16%
Seawater
16%
Electrical Resistance
13%
Heterogeneous Material
13%
Scanning Electron Microscopy
11%
Ceramics
11%
Young's Modulus
11%
Particle Property
11%
Particle
11%
Surface
9%
Epoxy
8%
Diffusivity
8%
Raman Spectroscopy
8%
Thermal Stability
8%
Stress Transfer
8%
Differential Scanning Calorimetry
8%
Interface Property
8%
Transmission Electron Microscopy
6%
Microscopy
6%
Polymerization
6%
Cellular Material
6%
Mesh Generation
6%
Thermal Property
6%
Nanocomposites
6%
Chemical Vapor Deposition
6%
Engineering
Fiber
100%
Composite
53%
Mechanical Properties
41%
Epoxy Matrix
41%
Epoxy Composite
36%
Models
33%
Polyurethan
33%
Strain Sensing
33%
Longer Term
33%
Term Effect
33%
Carbon Fibre Composite
33%
Rigid Foam
33%
Effective Property
33%
Carbon Nanofibre
33%
Elements
25%
Material Microstructure
25%
Applied Strain
19%
Reduction
17%
Microstructure of Material
16%
Strain
16%
Single Fibre
16%
Fibre Fracture
11%
Density
9%
High Strain
9%
Strain Curve
9%
Finite Element Modeling
8%
Large Number
8%
Good Agreement
8%
Damage Analysis
8%
Obtains
8%
Sensor
8%
Sudden Increase
8%
Fibre Strain
8%
Gauge Factor
8%
Matrix Interface
8%
Embedded Fiber
8%
Equilibrium Moisture Content
8%
High Modulus
8%
Axial Strain
8%
Moisture Diffusion
8%
Moisture Absorption
8%
Exposure Time
8%
Demonstrates
6%