Engineering
Porosity
100%
Contact Area
66%
Nonwovens
61%
Coefficient of Variation
46%
Fibre Length
38%
Electrospun
33%
Gamma Distribution
33%
Process Lines
28%
Paper Machine
28%
Ultimate Tensile Strength
23%
Two Dimensional
23%
Dimensional Change
19%
Impact Toughness
19%
Proportionality
19%
Conductive
19%
Fast Fourier Transform
19%
Polymer Fiber
19%
Linear Density
19%
Flocculation
18%
Cellulosic fibres
15%
Fuel Cell
14%
Data Show
14%
Obtained Expression
14%
Point Process
14%
Structural Property
14%
Nanofibers
12%
Percolation Threshold
12%
Pore Diameter
12%
Simulators
12%
Flow Rate
12%
Fiber Mat
12%
Poisson Process
11%
Fiber Bonding
11%
Young's Modulus
11%
Specific Surface Area
11%
Papermaking
11%
Flax Fiber
11%
Stress Transfer
11%
Cellulosics
11%
Interdependence
9%
Binomial Distribution
9%
Fiber Orientation
9%
Depth Profile
9%
Porous Structure
9%
Bacterial Cellulose
9%
Mathematical Modeling
9%
Control Procedure
9%
Domain Formation
9%
Pressure Profile
9%
Polyurethane Coating
9%
Material Science
Density
88%
Contact Area
57%
Pore Size Distribution
50%
Stress Transfer
42%
Ultimate Tensile Strength
35%
Fracture Toughness
30%
Young's Modulus
28%
Nanowires
28%
Tensile Property
28%
Nonwoven Fabrics
25%
Raman Spectroscopy
24%
Percolation
21%
Nanofiber
19%
Lignin
19%
Electrical Resistance
19%
Poly Vinyl Alcohol
19%
Polymer Composite
19%
Silver
19%
Polylactide
19%
Electrospinning
19%
Hardwood
19%
Graphene
19%
Elastic Moduli
16%
Self Assembly
15%
Carbon Fiber
14%
Cell Proliferation
14%
Structural Property
12%
Actuator
11%
Micromechanics
11%
Anisotropy
11%
Materials Property
11%
Nanocomposite
10%
Homogenization
9%
Paper
9%
Void Fraction
9%
Surface
9%
Pore Size
9%
Fiber Type
9%
Polyurethane
9%
Film
9%
Laser Polarization
9%
Graphene Oxide
9%
Surface Property
9%
Building Material
9%
Stochastic Modeling
9%
Conductor
9%
Biocomposites
9%
Electromagnetic Interference Shielding
9%
Pore Structure
9%
X-Ray Photoelectron Spectroscopy
9%
Mathematics
Stochastics
76%
Variance
47%
Experimental Data
30%
Polygon
28%
Standard Deviation
26%
Perpendicularity
17%
Approximates
17%
Fast Fourier Transform
9%
Information Geometry
9%
Spatial Domain
9%
Nonlinear
9%
Monte Carlo
9%
Observed Increase
9%
Linear Function
9%
Linear Dependence
9%
Structural Property
9%
Relative Variance
9%
Point Process
9%
Weighted Mean
9%
Concludes
9%
Cluster Formation
9%
Stochastic Model
9%
Compound Poisson Process
9%
Lognormal Distribution
9%
Structural Parameter
9%
Gaussian Distribution
9%
random time δ
9%
Poisson Point Process
9%
Negative Binomial Distribution
9%
Probability of Coverage
9%
Local Flow
7%
Flow Rate
7%
Unit Area
6%