INIS
hybrids
100%
pva
100%
cellulose
100%
barriers
100%
nanocomposites
100%
clays
100%
montmorillonite
100%
cross-linking
37%
films
37%
dispersions
25%
oxygen
25%
humidity
25%
acrylic acid
25%
comparative evaluations
12%
chains
12%
polymers
12%
storage
12%
water
12%
molecules
12%
stability
12%
carbon 13
12%
scanning electron microscopy
12%
tensile strength
12%
recovery
12%
solvents
12%
increasing
12%
nmr
12%
diffusion
12%
casting
12%
loading
12%
matrices
12%
spectroscopy
12%
permeability
12%
adsorption
12%
x-ray diffraction
12%
ductility
12%
glass
12%
elasticity
12%
transition temperature
12%
restraints
12%
young modulus
12%
Keyphrases
Polyvinyl Alcohol
100%
Nanofibrillated Cellulose
100%
Barrier Properties
100%
Thermomechanical Properties
100%
Hybrid Composites
100%
Montmorillonite Clay
100%
Humidity
33%
Reinforced
33%
Acrylic Acid
33%
Clay Dispersion
33%
Scanning Electron Microscopy
16%
Tensile Strength
16%
Solvent Casting
16%
Oxygen Barrier Property
16%
Adsorption
16%
Thermal Stability
16%
Nanocomposite Film
16%
Water Molecule
16%
Ductility
16%
Polymer Chain
16%
X Ray Diffraction
16%
Oxygen Molecule
16%
Storage Modulus
16%
Infrared Spectroscopy
16%
Near-complete
16%
Glass Transition Temperature
16%
Complete Recovery
16%
Young's Modulus
16%
Hybrid Film
16%
13C NMR Spectroscopy
16%
Chain Segment
16%
Physical Restraint
16%
Non-cross-linked
16%
Effect of Clays
16%
Material Science
Poly Vinyl Alcohol
100%
Thermomechanical Property
100%
Nanocomposite
100%
Film
33%
Elastic Moduli
16%
Nanocomposite Film
16%
Thermal Stability
16%
Glass Transition Temperature
16%
Scanning Electron Microscopy
16%
Young's Modulus
16%
X-Ray Diffraction
16%
Ultimate Tensile Strength
16%
Elasticity
16%
13C NMR Spectroscopy
16%
Plasticizer
16%