Microfibrillated Cellulose (MFC) is a biobased material composed of cellulose fibrils that have been separated from a source, typically wood pulp. MFC has a large surface area, thus allowing the formation of more hydrogen bonds within the web, giving natural strength to new materials. When added to the manufacturing process they produce a wide range of enhancements including:
- increased tensile strength.
- improved barrier properties.
- smoother surfaces.
- improved printability.
- reduced porosity.
- improved web density.
- increased web consolidation.
Report contents include:
- Technology analysis including properties, benefits, other cellulose-based advanced biomaterials and pricing.
- Production capacities in metric tons.
- Global market demand 2018-2033, by market, in metric tons. Markets covered include paperboards & packaging, textiles, personal care and paints & coatings, plus analysis of new markets including batteries.
- Market supply chain.
- MFC products.
- 58 company profiles. Companies profiled include Borregaard Chemcell, Daicel Corporation, Fiberlean Technologies, Klabin, Norkse Skog, Sappi Biotech, Stora Enso, Suzano, UPM, Valmet and Zelfo Technology.
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Table of Contents
1 TECHNOLOGY ANALYSIS
1.1 Cellulose
1.2 Feedstocks
1.2.1 Wood
1.2.2 Plant
1.2.3 Tunicate
1.2.4 Algae
1.2.5 Bacteria
1.3 Cellulose fibers
1.3.1 Microfibrillated cellulose (MFC)
1.3.2 Commercial production of cellulose fibers from plants
1.3.2.1 Seed fibers
1.3.2.1.1 Cotton
1.3.2.1.1.1 Production volumes 2018-2033
1.3.2.1.2 Kapok
1.3.2.1.2.1 Production volumes 2018-2033
1.3.2.1.3 Luffa
1.3.2.2 Bast fibers
1.3.2.2.1 Jute
1.3.2.2.1.1 Production volumes 2018-2033
1.3.2.2.2 Hemp
1.3.2.2.2.1 Production volumes 2018-2033
1.3.2.2.3 Flax
1.3.2.2.3.1 Production volumes 2018-2033
1.3.2.2.4 Ramie
1.3.2.2.4.1 Production volumes 2018-2033
1.3.2.2.5 Kenaf
1.3.2.2.5.1 Production volumes 2018-2033
1.3.2.3 Leaf fibers
1.3.2.3.1 Sisal
1.3.2.3.1.1 Production volumes 2018-2033
1.3.2.3.2 Abaca
1.3.2.3.2.1 Production volumes 2018-2033
1.3.2.4 Fruit fibers
1.3.2.4.1 Coir
1.3.2.4.1.1 Production volumes 2018-2033
1.3.2.4.2 Banana
1.3.2.4.2.1 Production volumes 2018-2033
1.3.2.4.3 Pineapple
1.3.2.5 Stalk fibers from agricultural residues
1.3.2.5.1 Rice fiber
1.3.2.5.2 Corn
1.3.2.6 Cane, grasses and reed
1.3.2.6.1 Switch grass
1.3.2.6.2 Sugarcane (agricultural residues)
1.3.2.6.3 Bamboo
1.3.2.6.3.1 Production volumes 2018-2033
1.3.2.6.4 Fresh grass (green biorefinery)
1.3.3 Regenerated cellulose fibers
1.3.4 Ionic liquids
1.4 Cellulose nanofibers
1.4.1 Properties
1.4.2 Applications
1.5 Cellulose filaments
1.6 Pricing
2 MICROFIBRILLATED CELLULOSE (CELLULOSE MICROFIBERS) MARKET
2.1 Production capacities
2.2 Global market demand 2018-2033 (tons)
2.3 Market supply chain
2.4 Products
2.5 Paperboard and packaging
2.5.1 Market overview
2.5.2 Global market in tons to 2033
2.6 Textiles
2.6.1 Market overview
2.6.2 Global market in tons to 2033
2.7 Personal care
2.7.1 Market overview
2.7.2 Global market in tons to 2033
2.8 Paints and coatings
2.8.1 Market overview
2.8.2 Global market in tons to 2033
2.9 Other markets
3 MICROFIBRILLATED CELLULOSE COMPANY PROFILES (58 company profiles)
4 RESEARCH SCOPE AND METHODOLOGY
4.1 Report scope
4.2 Research methodology
5 REFERENCES
List of Tables
Table 1. Length and diameter of nanocellulose and MFC.
Table 2. Major polymers found in the extracellular covering of different algae.
Table 3. Overview of cotton fibers-description, properties, drawbacks and applications.
Table 4. Overview of kapok fibers-description, properties, drawbacks and applications.
Table 5. Overview of luffa fibers-description, properties, drawbacks and applications.
Table 6. Overview of jute fibers-description, properties, drawbacks and applications.
Table 7. Overview of hemp fibers-description, properties, drawbacks and applications.
Table 8. Overview of flax fibers-description, properties, drawbacks and applications.
Table 9. Overview of ramie fibers-description, properties, drawbacks and applications.
Table 10. Overview of kenaf fibers-description, properties, drawbacks and applications.
Table 11. Overview of sisal fibers-description, properties, drawbacks and applications.
Table 12. Overview of abaca fibers-description, properties, drawbacks and applications.
Table 13. Overview of coir fibers-description, properties, drawbacks and applications.
Table 14. Overview of banana fibers-description, properties, drawbacks and applications.
Table 15. Overview of pineapple fibers-description, properties, drawbacks and applications.
Table 16. Overview of rice fibers-description, properties, drawbacks and applications.
Table 17. Overview of corn fibers-description, properties, drawbacks and applications.
Table 18. Overview of switch grass fibers-description, properties and applications.
Table 19. Overview of sugarcane fibers-description, properties, drawbacks and application and market size.
Table 20. Overview of bamboo fibers-description, properties, drawbacks and applications.
Table 21. Recycled cellulose fibers companies.
Table 22. Properties and applications of cellulose nanofibers
Table 23. Properties of cellulose micro and nanofibers, by type.
Table 24. Properties of cellulose nanofibers relative to metallic and polymeric materials.
Table 25. Chemical composition of different lignocellulosic feedstocks used for nanocellulose production (% dry basis).
Table 26. Applications of cellulose nanofibers (CNF).
Table 27: Product/price/application matrix of MCF and CNF.
Table 28. Microfibrillated Cellulose (MFC) production capacities in metric tons and production process, by producer, metric tons.
Table 29. Commercially available Microfibrillated Cellulose products.
Table 30. Market overview for cellulose microfibers (microfibrillated cellulose) in paperboard and packaging-market age, key benefits, applications and producers.
Table 31. Global demand for cellulose microfibers (Microfibrillated Cellulose) in paper and packaging, 2018-2033 (tons).
Table 32. Market overview for cellulose microfibers (microfibrillated cellulose) in textiles-market age, key benefits, applications and producers.
Table 33. Global demand for cellulose microfibers (microfibrillated cellulose) in textiles, 2018-2033 (tons).
Table 34. Market overview for cellulose microfibers (microfibrillated cellulose) in personal care-market age, key benefits, applications and producers.
Table 35. Global demand for Microfibrillated Cellulose in personal care, 2018-2033 (tons).
Table 36. Market overview for cellulose microfibers (microfibrillated cellulose) in paints and coatings-market age, key benefits, applications and producers.
Table 37. Global demand for cellulose microfibers (microfibrillated cellulose) in paints and coatings, 2018-2033 (tons).
Table 38. Other markets for Microfibrillated Cellulose.
List of Figures
Figure 1. Schematic diagram of partial molecular structure of cellulose chain with numbering for carbon atoms and n= number of cellobiose repeating unit.
Figure 2. Scale of cellulose materials.
Figure 3. Organization and morphology of cellulose synthesizing terminal complexes (TCs) in different organisms.
Figure 4. Biosynthesis of (a) wood cellulose (b) tunicate cellulose and (c) BC.
Figure 5. Cellulose microfibrils and nanofibrils.
Figure 6. SEM image of microfibrillated cellulose.
Figure 7. Cotton production volume 2018-2033 (Million MT).
Figure 8. Kapok production volume 2018-2033 (MT).
Figure 9. Luffa cylindrica fiber.
Figure 10. Jute production volume 2018-2033 (Million MT).
Figure 11. Hemp fiber production volume 2018-2033 (MT).
Figure 12. Flax fiber production volume 2018-2033 (MT).
Figure 13. Ramie fiber production volume 2018-2033 (MT).
Figure 14. Kenaf fiber production volume 2018-2033 (MT).
Figure 15. Sisal fiber production volume 2018-2033 (MT).
Figure 16. Abaca fiber production volume 2018-2033 (MT).
Figure 17. Coir fiber production volume 2018-2033 (million MT).
Figure 18. Banana fiber production volume 2018-2033 (MT).
Figure 19. Pineapple fiber.
Figure 20. A bag made with pineapple biomaterial from the H&M Conscious Collection 2019.
Figure 21. Bamboo fiber production volume 2018-2033 (MILLION MT).
Figure 22. CNF gel.
Figure 23. Global market demand for Microfibrillated Cellulose (MFC). 2018-2033 (tons).
Figure 24. Supply chain for the Microfibrillated Cellulose market.
Figure 25. Global demand for Microfibrillated Cellulose in paper and packaging, 2018-2033 (tons).
Figure 26. Global demand for Microfibrillated Cellulose in textiles, 2018-2033 (tons).
Figure 27. Global demand for cellulose nanofibers in personal care, 2018-2033 (tons).
Figure 28. Global demand for cellulose microfibers (microfibrillated cellulose) in paints and coatings, 2018-2033 (tons).
Figure 29. Pressurized Hot Water Extraction.
Figure 30. Celish.
Figure 31. BELLOCEA™
Figure 32. Photograph (a) and micrograph (b) of mineral/ MFC composite showing the high viscosity and fibrillar structure.
Figure 33. Water-repellent cellulose.
Figure 34. HeiQ AeoniQ .
Figure 35. BioFlex process.
Figure 36. A vacuum cleaner part made of cellulose fiber (left) and the assembled vacuum cleaner.
Figure 37: Innventia AB movable nanocellulose demo plant.
Figure 38. 3D printed cellulose shoe.
Figure 39. Lyocell process.
Figure 40. Thales packaging incorporating Fibrease.
Figure 41. HefCel-coated wood (left) and untreated wood (right) after 30 seconds flame test.
Figure 42. Worn Again products.
Companies Mentioned (Partial List)
A selection of companies mentioned in this report includes, but is not limited to:
- 525 Solutions, Inc.
- BIO-LUTIONS International AG
- Biotecam
- Birla Cellulose
- BlockTexx Pty Ltd.
- Borregaard ChemCell
- Cass Materials Pty Ltd
- Cellucomp Ltd.
- CH Bioforce
- CIRC
- Circular Systems
- CreaFill Fibers Corporation
- Daicel Corporation
- Daito Kasei Kogyo Co.
- Eastman Chemical Co.
- Evrnu
- Fiberlean Technologies
- Freyzein
- GenCrest Bio Products
- HeiQ Materials AG
- Honext Material SL
- Infinited Fiber Company Oy
- Inspidere B.V.
- Ioncell Oy
- Kelheim Fibres
- Klabin S.A.
- Kruger Biomaterials, Inc.
- Lenzing AG
- LIST Technology AG
- Lixea
- Metsä Group
- Nanollose Ltd
- Noosa Fiber
- Nordic Bioproducts Group
- Norske Skog ASA
- Orange Fiber S.r.l.
- Organic Disposables
- Panasonic
- Re:newcell
- Releaf Paper
- Rise Innventia AB
- Sappi Limited
- SaXcell BV
- Simplifyber, Inc.
- Smartfiber AG
- Soma Bioworks/White Lemur Co.
- Spinnova Oyj
- Stora Enso Oyj
- Suzano (Woodspin)
- The Hurd Co
- TreeToTextile
- UPM Biocomposites
- Valmet Oyj
- VTT Technical Research Centre of Finland Ltd
- Weidmann Fiber Technology
- Woodly Ltd.
- Worn Again Technologies
- Zelfo Technology GmbH
Methodology
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