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Substrate role in coating of microfibrillated cellulose suspensions
Vinay Kumar
,
Venkata Rajesh Koppolu
, Douglas Bousfield
, Martti Toivakka
Not published at VTT
Åbo Akademi University
University of Maine
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
44
Citations (Scopus)
Overview
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Dive into the research topics of 'Substrate role in coating of microfibrillated cellulose suspensions'. Together they form a unique fingerprint.
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INIS
coatings
100%
substrates
100%
cellulose
100%
suspensions
100%
surfaces
66%
water
25%
roughness
16%
barriers
16%
weight
16%
capacity
16%
porosity
16%
absorption
16%
comparative evaluations
8%
applications
8%
geometry
8%
scanning electron microscopy
8%
packaging
8%
demand
8%
oils
8%
volume
8%
chemistry
8%
adhesion
8%
films
8%
toxicity
8%
viscosity
8%
air
8%
gases
8%
solids
8%
yields
8%
testing
8%
permeability
8%
defects
8%
surface energy
8%
Engineering
Coating Quality
100%
Nanocellulose
100%
Absorption Capacity
66%
Porosity
66%
Solid Content
33%
Rheological Behavior
33%
Coating Material
33%
Paperboard
33%
Smooth Surface
33%
Gas Barrier Property
33%
Energy Surface
33%
Hydrophilic Surface
33%
Yield Point
33%
Interfacial Energy
33%
Air Permeability
33%
Keyphrases
Microfibrillated Cellulose
100%
Coating Quality
33%
Surface Roughness
22%
Coating Weight
22%
Nanocellulose
22%
Paper Substrate
22%
Water Absorption
22%
Surface Porosity
22%
Cellulose Coating
22%
Scanning Electron Microscopy
11%
Packaging Applications
11%
Oil Barrier
11%
Yield Stress
11%
Paperboard
11%
Rheological Behavior
11%
Coated Surface
11%
Solid Content
11%
Smooth Surface
11%
Surface Energy
11%
Roll-to-roll Process
11%
Strength Testing
11%
Surface Chemistry
11%
Coating Adhesion
11%
Paper Coating
11%
Surface Strength
11%
Hydrophilic Surface
11%
Penetration Testing
11%
Coating Materials
11%
Nanocellulose Materials
11%
Free-standing Film
11%
High Viscosity
11%
Gas Barrier Properties
11%
Energy Surface
11%
Coated Substrate
11%
Substrate Properties
11%
Surface Water
11%
Coating Coverage
11%
Coatability
11%
Substrate Requirements
11%
Air Permeability Test
11%
Slot Geometry
11%
Highly Viscous
11%
Material Science
Surface (Surface Science)
100%
Nanocellulose
50%
Surface Roughness
33%
Paperboard
16%
Yield Stress
16%
Surface Energy
16%
Scanning Electron Microscopy
16%
Film
16%
Air Permeability
16%