Keyphrases
Molecular Orientation
96%
Liquid Crystal Polymer
70%
Shear Flow
70%
Thermotropic Liquid Crystalline Polymer
64%
Tumbling
60%
Shear Rate
56%
Rheology
49%
Scattering Measurements
41%
Flow Direction
40%
Polystyrene
39%
Polymer Solution
38%
Small-angle X-ray Scattering
37%
Flow Birefringence
36%
Channel Flow
35%
In Situ
33%
Birefringence
32%
X-ray Scattering
30%
Bicontinuous Microemulsion
29%
Benzyl
28%
Glutamate
28%
Main Chain
28%
Block Copolymer
27%
Polymer Dispersed Liquid Crystal
25%
Polybasic Domain
25%
Injection Molding
24%
Step Strain
23%
Flow Cessation
23%
Simple Shear Flow
22%
Hydroxypropyl Methylcellulose
21%
Shear-induced
21%
Transient Shear Flow
21%
Extensional Flow
20%
Crystallization
20%
Low Shear Rate
20%
Doi Model
20%
Wide-angle X-ray Scattering
20%
Oscillatory Shear
20%
Uniaxial
20%
Shear-induced Alignment
19%
Triblock
19%
Plaque
19%
Multi-walled Carbon Nanotubes (MWCNTs)
18%
Temperature Effect
17%
Microemulsion
17%
Steady Shear
17%
Polymer Melt
16%
Liquid Crystalline Copolyester
16%
Copolymer Melt
16%
Orientation Distribution Function
16%
X-ray Total Scattering
16%
Engineering
Liquid Crystalline Polymer
100%
Molecular Orientation
92%
Shear Flow
85%
Transients
54%
Shear Rate
54%
Liquid Crystal
46%
Rheology
45%
Flow Direction
34%
Microemulsions
29%
Oscillatory
28%
Injection Moulding
26%
Main Chain
25%
Molecular Weight
24%
Molecular Mass
24%
Copolyester
23%
Simple Shear Flow
21%
Extensional Flow
20%
Channel Flow
20%
Shear Thinning
19%
Axisymmetric
16%
Model Prediction
16%
Stress Relaxation
14%
Phase Separation
14%
Structural Response
13%
Flow in Channels
13%
High Shear Rate
13%
Carbon Nanotubes
12%
Hydrogel
12%
Relaxation Time
11%
Nanocomposites
11%
Ray Absorption
11%
Collected Data
10%
Strain Amplitude
10%
Refractive Index
9%
Refractivity
9%
Vorticity
8%
Illustrates
8%
Isothermal
8%
Monomer
8%
Axisymmetric Flow
8%
Mold Filling
8%
Phase Structure
8%
Flow Behavior
8%
Solubility
8%
Phase Composition
8%
Nonlinear Viscoelasticity
8%
Shear Strain
8%
Fluid Model
7%
Expansion Flow
7%
Stagnation Point
7%