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Novel biobased micro- and nanomaterials in porous foam formed structures
Katariina Torvinen
, Tiina Pöhler
,
Timo Lappalainen
, Arja Paajanen
,
Jari Sirviö
,
Jukka Ketoja
VTT (former employee or external)
Research output
:
Contribution to conference
›
Other conference contribution
›
Scientific
Overview
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Keyphrases
Cellulose Nanofibrils
100%
Bioproducts
100%
Porous Foam
100%
Micro-nanomaterials
100%
Surface Proteins
66%
Compression Strength
66%
Foam Structure
66%
Mechanical Properties
33%
Microstructure
33%
Lignin
33%
Fiber Fines
33%
Image Analysis
33%
Fiber Foam
33%
Cellulose Surface
33%
Material Properties
33%
Drying Time
33%
Porous Structure
33%
Air Bubbles
33%
Packaging Materials
33%
Wood Fiber
33%
Foam Forming
33%
Forming Process
33%
Design Basis
33%
Nanomaterials
33%
Forming Technology
33%
Driven Approach
33%
Fiber Structure
33%
Processing Properties
33%
Porous Fiber
33%
Dewatering
33%
Spruce Wood
33%
Highly Porous
33%
Product Properties
33%
Foaming Agent
33%
Acoustic Materials
33%
Lamellae
33%
Tomography Image
33%
Selection Range
33%
Water Samples
33%
Macrostructure
33%
Indoor Construction
33%
Lignocellulosic Fibers
33%
Elementary Analysis
33%
X-ray Computed Tomography (X-CT)
33%
Vacuum Delivery
33%
Iron-Cobalt
33%
Agro Fiber
33%
INIS
foams
100%
nanomaterials
100%
porous materials
100%
fibers
80%
proteins
60%
cellulose
60%
wood
40%
surfaces
40%
applications
40%
compression strength
40%
spruces
20%
construction
20%
x radiation
20%
images
20%
indoors
20%
design
20%
water
20%
pva
20%
mechanical properties
20%
iron
20%
packaging
20%
bubbles
20%
retention
20%
lignin
20%
range
20%
raw materials
20%
air
20%
drying
20%
acoustics
20%
tomography
20%
cobalt
20%
dewatering
20%
lamellae
20%
Material Science
Nanostructured Material
100%
Carbon Nanofiber
100%
Surface (Surface Science)
100%
Tomography
50%
Lignin
50%
Microstructure
50%
Cobalt
50%
Fiber Structure
50%
Macrostructure
50%
Materials Property
50%
Blowing Agent
50%
Chemical Engineering
Carbon Nanofibre
100%
Dewatering
50%
Polyvinyl Alcohol
50%