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Improving strength and resilience of foam-formed fibre cushioning
Noora Raipale
Not published at VTT
Aalto University
Research output
:
Thesis
›
Master's thesis
Overview
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Projects
(1)
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Dive into the research topics of 'Improving strength and resilience of foam-formed fibre cushioning'. Together they form a unique fingerprint.
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Keyphrases
Resilience
100%
Chemi-mechanical Pulp
50%
Pore Size Distribution
50%
Chitosan
50%
Fiber-based
50%
Pulp Fiber
50%
Environmentally Friendly
50%
Nonionic
50%
Formed Materials
50%
Foaming Agent
50%
High Resilience
50%
Platen
50%
Non-renewable
50%
X-ray Scanning
50%
Internal Structure
50%
Mechanical Testing
50%
Drop Test
50%
G-value
50%
Concentrated Latex
50%
X-ray Micro-computed Tomography
50%
Scanning Electron Microscope Image
50%
Homogeneous Structure
50%
Polymeric Foam
50%
Cushioning Material
50%
Dynamic Shock
50%
Package Cushioning
50%
Shock Cushioning
50%
Petroleum-based Materials
50%
Material Science
Thermomechanical Pulp
100%
Pore Size Distribution
100%
Mechanical Testing
100%
Scanning Electron Microscopy
100%
Density
100%
Blowing Agent
100%
X-Ray Computed Tomography
100%
Engineering
Renewables
100%
Formed Material
100%
Mechanical Testing
100%
Internal Structure
100%
Base Structure
100%
Synthetic Latex
100%
Blowing Agent
100%
INIS
foams
100%
fibers
100%
sustainability
20%
density
20%
applications
20%
dynamics
20%
images
20%
pulps
20%
size
20%
scanning electron microscopy
20%
distribution
20%
variations
20%
computerized tomography
20%
petroleum
20%
causality
20%
mechanical tests
20%
g value
20%
latex
20%