2 Technology leaps Harlin - Cellulose Finland · 2018-01-10 · 2.0 Technology leaps for future...
Transcript of 2 Technology leaps Harlin - Cellulose Finland · 2018-01-10 · 2.0 Technology leaps for future...
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2.0
Technologyleapsforfutureapplicationsofcellulosefibres
Prof. Ali Harlin
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Question:
New meaning of cellulose- the ultimate properties
of fractioned cellulose as a fibre?
DegradableBiobased
Recyclable Sustain
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Understanding developsIn the past decades we have learned more of cellulosestructure and properties than in previous centuries
– Rapid development of research methods and equiment– Nanotechnology lead to detailled morphology of cell wall– Computational methods explained cellulose molular structure– Advanced methods to modify and dissolve cellulose– Digitalization enabled active communication of researches– Reorientation of the forest based industries increased finansing
Cellwall structure Fibril structure Molecular structureFibre structuresWoodstructure
Paper, board New inherent propertiesTimber Chemicals
Novel innovativematerials
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Vision develops
From simple fibers to:
Complex natural polymerNano fibils and chrystals
Next supermaterials
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Fiber foams
Innovation in processing:Specialty and long fibers formationTailored orientation and density profils
Siljanderet.al.NFCsurfaceonMWCNTnetwork
Heating nonwoven
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Digitalized production
On-demand personizedMaterial adding manufacturingDirect production
Conductive/MagnetoactiveCoaxial Filaments +3dprint
Lundhal et.al.2016
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Nanocellulose supermaterial
Applying high strengthHandling hygroscopicity & dryingControlled composite structures
Flame retardant
Kunnariet.al.Pat.Appl.FI20175604
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Control over dissolving
Sustainable fibers and technical yarnsIL’s: Highly efficient cellulose solventsDES: Controlled swelling
Hormone capture
Orelmaet.al.2017
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Towards engineered materials
Cellulose is more than collection of naturally occuring fibers:
• Fibril and chemical properties can be tailored multiple levels• ability to modify and construct new materials• Predefined structure engineering leads to material design
StructureEngineering
MaterialDesign
Innovation
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Impact oftechnology leaps:
Enabling competitive renewable materials:Sustainable future through low LCA
Recycling ofcellulose:Increasing supply security ofsociety
Cellulose asnext super material:Replacement ofnon renewable materials
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