The Global Market for Natural Fibers 2022-2032

Continued growth in composites and packaging markets is creating opportunities for biobased, renewable materials. Fibers derived from bio-based sources such as plant-based (ligno) cellulosics and animal-based protein are termed natural fibers (NF). This includes natural cellulosic fibers such as cotton, jute, sisal, coir, flax, hemp, abaca, ramie, etc.) and protein-based fibers such as wool and silk. Man-made cellulose fibers (e.g., viscose rayon, cellulose acetate and nanocellulose) that are produced with chemical procedures from pulped wood or other sources (cotton, bamboo, biomass) are also covered in this report under the natural fibers definition.

Natural fibers, with their porous cell structure and relatively low density, are becoming increasingly popular because they are renewable, non-abrasive, cheap, available in abundance and pose lower health risks during handling and processing.

They possess environmental advantages including decreased respiratory and dermal irritation, improved energy consumption, less wear and abrasion on tools, and minimal health hazards. Natural fiber composites (NFCs) have been developed for use in automotive, marine, sports gear, construction, and aerospace markets.

The use of natural fibers is growing as environmentally friendly replacement materials for packaging applications. In June 2022, Carlsberg launched a trial of recyclable fibre beer bottles composed of a wood-based fibre shell and a plant-based polyethylene furanoate (PEF) polymer lining. Absolut Company has partnered with a new start-up to develop a natural-fiber based closure cap for spirit bottles. BMW is utilizing natural fibers from BComp in the BMW M4 GT4 racing car.

Report contents include:

Market drivers for natural fibers.
Market trends.
Global revenues for natural fibers 2022-2032, by fiber types, market and region.
Technology challenges.
Analysis of types of natural fibers including plant-derived fibers, cultivated animal fibers cell fibers, microbe-derived fibers.
Markets for natural fibers, including composites, aerospace, automotive, construction & building, sports & leisure, textiles, consumer products and packaging.
Profiles of 190 natural fiber companies. Companies profiled include Algaeing, Ananas Anam, BASF, Bast Fiber Technologies Inc., Blue Ocean Closures, Coastgrass ApS, Kelheim Fibres GmbH, BComp, Circular Systems, Evrnu, Natural Fiber Welding, Icytos and many more.

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1 EXECUTIVE SUMMARY

1.1 What are natural fibers?
1.2 Benefits of natural fibers over synthetic
1.3 Markets and applications for natural fibers
1.4 Recent commercial activity in natural fibers
1.5 Market drivers for natural fibers
1.6 Challenges

2 NATURAL FIBER TYPES

2.1 Manufacturing method, matrix materials and applications of natural fibers
2.2 Advantages of natural fibers
2.3 Plants (cellulose, lignocellulose)
2.3.1 Seed fibers
2.3.1.1 Cotton
2.3.1.2 Kapok
2.3.1.3 Luffa
2.3.2 Bast fibers
2.3.2.1 Jute
2.3.2.2 Hemp
2.3.2.3 Flax
2.3.2.4 Ramie
2.3.2.5 Kenaf
2.3.3 Leaf fibers
2.3.3.1 Sisal
2.3.3.2 Abaca
2.3.4 Fruit fibers
2.3.4.1 Coir
2.3.4.2 Banana
2.3.4.3 Pineapple
2.3.5 Stalk fibers from agricultural residues
2.3.5.1 Rice fiber
2.3.5.2 Corn
2.3.6 Cane, grasses and reed
2.3.6.1 Switch grass
2.3.6.2 Sugarcane (agricultural residues)
2.3.6.3 Bamboo
2.3.6.4 Fresh grass (green biorefinery)
2.3.7 Modified natural polymers
2.3.7.1 Mycelium
2.3.7.2 Chitosan
2.3.7.3 Alginate
2.4 Animal (fibrous protein)
2.4.1 Wool
2.4.1.1 Plant-derived wool
2.4.1.2 Microbe-derived wool
2.4.1.3 Cultivated animal cell wool
2.4.1.4 Producers
2.4.2 Silk fiber
2.4.2.1 Plant-derived silk
2.4.2.2 Microbe-derived silk
2.4.2.3 Producers
2.4.3 Leather
2.4.3.1 Plant-derived leather
2.4.3.2 Mycelium leather
2.4.3.3 Microbe-derived leather
2.4.3.4 Cultivated animal cell leather
2.4.3.5 Producers
2.4.4 Fur
2.4.4.1 Plant-derived fur
2.4.4.2 Cultivated animal cell fur
2.4.4.3 Producers
2.4.5 Down
2.4.5.1 Plant-derived down
2.4.5.2 Microbe-derived down
2.4.5.3 Producers
2.5 Polysaccharides
2.5.1 Microfibrillated cellulose (MFC)
2.5.1.1 Market analysis
2.5.1.2 Producers
2.5.2 Cellulose nanocrystals
2.5.2.1 Market analysis
2.5.2.2 Producers
2.5.3 Cellulose nanofibers
2.5.3.1 Market analysis
2.5.3.2 Producers

3 MARKETS FOR NATURAL FIBERS

3.1 Composites
3.1.1 Applications
3.1.2 Natural fiber injection moulding compounds
3.1.2.1 Properties
3.1.2.2 Applications
3.1.3 Non-woven natural fiber mat composites
3.1.3.1 Automotive
3.1.3.2 Applications
3.1.4 Aligned natural fiber-reinforced composites
3.1.5 Natural fiber biobased polymer compounds
3.1.6 Natural fiber biobased polymer non-woven mats
3.1.6.1 Flax
3.1.6.2 Kenaf
3.1.7 Natural fiber thermoset bioresin composites
3.2 Aerospace
3.2.1 Market overview
3.3 Automotive
3.3.1 Market overview
3.3.2 Applications of natural fibers
3.4 Building/construction
3.4.1 Market overview
3.4.2 Applications of natural fibers
3.5 Sports and leisure
3.5.1 Market overview
3.6 Textiles
3.6.1 Market overview
3.6.2 Consumer apparel
3.6.3 Geotextiles
3.7 Packaging
3.7.1 Market overview

4 GLOBAL NATURAL FIBERS MARKET

4.1 Overall global fibers market
4.2 Plant-based fiber production
4.3 Animal-based natural fiber production

5 NATURAL FIBER PRODUCERS AND PRODUCT DEVELOPER PROFILES (190 company profiles)6 AIMS AND OBJECTIVES OF THE STUDY7 RESEARCH METHODOLOGY8 REFERENCES

List of Tables

Table 1. Types of natural fibers
Table 2. Markets and applications for natural fibers
Table 3. Investments in natural fiber companies 2020-2022
Table 4. Market drivers for natural fibers
Table 5. Application, manufacturing method, and matrix materials of natural fibers
Table 6. Typical properties of natural fibers
Table 7. Overview of cotton fibers-description, properties, drawbacks and applications
Table 8. Overview of kapok fibers-description, properties, drawbacks and applications
Table 9. Overview of luffa fibers-description, properties, drawbacks and applications
Table 10. Overview of jute fibers-description, properties, drawbacks and applications
Table 11. Overview of hemp fibers-description, properties, drawbacks and applications
Table 12. Overview of flax fibers-description, properties, drawbacks and applications
Table 13. Overview of ramie fibers- description, properties, drawbacks and applications
Table 14. Overview of kenaf fibers-description, properties, drawbacks and applications
Table 15. Overview of sisal fibers-description, properties, drawbacks and applications
Table 16. Overview of abaca fibers-description, properties, drawbacks and applications
Table 17. Overview of coir fibers-description, properties, drawbacks and applications
Table 18. Overview of banana fibers-description, properties, drawbacks and applications
Table 19. Overview of pineapple fibers-description, properties, drawbacks and applications
Table 20. Overview of rice fibers-description, properties, drawbacks and applications
Table 21. Overview of corn fibers-description, properties, drawbacks and applications
Table 22. Overview of switch grass fibers-description, properties and applications
Table 23. Overview of sugarcane fibers-description, properties, drawbacks and application and market size
Table 24. Overview of bamboo fibers-description, properties, drawbacks and applications
Table 25. Overview of mycelium fibers-description, properties, drawbacks and applications
Table 26. Overview of chitosan fibers-description, properties, drawbacks and applications
Table 27. Overview of alginate-description, properties, application and market size
Table 28. Overview of wool fibers-description, properties, drawbacks and applications
Table 29. Alternative wool materials producers
Table 30. Overview of silk fibers-description, properties, application and market size
Table 31. Alternative silk materials producers
Table 32. Alternative leather materials producers
Table 33. Alternative fur materials producers
Table 34. Alternative down materials producers
Table 35. Microfibrillated cellulose (MFC) market analysis
Table 36. Leading MFC producers and capacities
Table 37. Cellulose nanocrystals analysis
Table 38. Cellulose nanocrystal production capacities and production process, by producer
Table 39. Cellulose nanofibers market analysis
Table 40. CNF production capacities and production process, by producer, in metric tons
Table 41. Applications of natural fiber composites
Table 42. Typical properties of short natural fiber-thermoplastic composites
Table 43. Properties of non-woven natural fiber mat composites
Table 44. Properties of aligned natural fiber composites
Table 45. Properties of natural fiber-bio-based polymer compounds
Table 46. Properties of natural fiber-bio-based polymer non-woven mats
Table 47. Natural fibers in the aerospace sector-market drivers, applications and challenges for NF use
Table 48. Natural fiber-reinforced polymer composite in the automotive market
Table 49. Natural fibers in the aerospace sector- market drivers, applications and challenges for NF use
Table 50. Applications of natural fibers in the automotive industry
Table 51. Natural fibers in the building/construction sector- market drivers, applications and challenges for NF use
Table 52. Applications of natural fibers in the building/construction sector
Table 53. Natural fibers in the sports and leisure sector-market drivers, applications and challenges for NF use
Table 54. Natural fibers in the textiles sector-market drivers, applications and challenges for NF use
Table 55. Natural fibers in the packaging sector-market drivers, applications and challenges for NF use
Table 56. Granbio Nanocellulose Processes
Table 57. Oji Holdings CNF products

List of Figures

Figure 1. Carlsberg natural fiber beer bottle
Figure 2. Natural fiber composites in the BMW M4 GT4 racing car
Figure 3. Absolut natural based fiber bottle cap
Figure 4. Types of natural fibers
Figure 5. Cotton production volume 2018-2032 (Million MT)
Figure 6. Kapok production volume 2018-2032 (MT)
Figure 7. Luffa cylindrica fiber
Figure 8. Jute production volume 2018-2032 (Million MT)
Figure 9. Hemp fiber production volume 2018-2032 (Million MT)
Figure 10. Flax fiber production volume 2018-2032 (MT)
Figure 11. Ramie fiber production volume 2018-2032 (MT)
Figure 12. Kenaf fiber production volume 2018-2032 (MT)
Figure 13. Sisal fiber production volume 2018-2032 (MT)
Figure 14. Abaca fiber production volume 2018-2032 (MT)
Figure 15. Coir fiber production volume 2018-2032 (MILLION MT)
Figure 16. Banana fiber production volume 2018-2032 (MT)
Figure 17. Pineapple fiber
Figure 18. A bag made with pineapple biomaterial from the H&M Conscious Collection 2019
Figure 19. Bamboo fiber production volume 2018-2032 (MILLION MT)
Figure 20. Typical structure of mycelium-based foam
Figure 21. Commercial mycelium composite construction materials
Figure 22. BLOOM masterbatch from Algix
Figure 23. Hemp fibers combined with PP in car door panel
Figure 24. Car door produced from Hemp fiber
Figure 25. Mercedes-Benz components containing natural fibers
Figure 26. AlgiKicks sneaker, made with the Algiknit biopolymer gel
Figure 27. Coir mats for erosion control
Figure 28. Global fiber production in 2019, by fiber type, million MT and %
Figure 29. Global fiber production (million MT) to 2020-2032
Figure 30. Plant-based fiber production 2018-2032, by fiber type, MT
Figure 31. Animal based fiber production 2018-2032, by fiber type, million MT
Figure 32. Pluumo
Figure 33. Algiknit yarn
Figure 34. Amadou leather shoes
Figure 35. Anpoly cellulose nanofiber hydrogel
Figure 36. MEDICELLU™
Figure 37. Asahi Kasei CNF fabric sheet
Figure 38. Properties of Asahi Kasei cellulose nanofiber nonwoven fabric
Figure 39. CNF nonwoven fabric
Figure 40. Roof frame made of natural fiber
Figure 41. Natural fibres racing seat
Figure 42. Beyond Leather Materials product
Figure 43. Fiber-based screw cap
Figure 44. Cellugy materials
Figure 45. nanoforest-S
Figure 46. nanoforest-PDP
Figure 47. nanoforest-MB
Figure 48. CuanSave film
Figure 49. Celish
Figure 50. Trunk lid incorporating CNF
Figure 51. ELLEX products
Figure 52. CNF-reinforced PP compounds
Figure 53. Kirekira! toilet wipes
Figure 54. Color CNF
Figure 55. Rheocrysta spray
Figure 56. DKS CNF products
Figure 57. Mushroom leather
Figure 58. CNF based on citrus peel
Figure 59. Citrus cellulose nanofiber
Figure 60. Filler Bank CNC products
Figure 61. Fibers on kapok tree and after processing
Figure 62. Cellulose Nanofiber (CNF) composite with polyethylene (PE)
Figure 63. CNF products from Furukawa Electric
Figure 64. Cutlery samples (spoon, knife, fork) made of nano cellulose and biodegradable plastic composite materials
Figure 65. Non-aqueous CNF dispersion "Senaf" (Photo shows 5% of plasticizer)
Figure 66. CNF gel
Figure 67. Block nanocellulose material
Figure 68. CNF products developed by Hokuetsu
Figure 69. Marine leather products
Figure 70. Dual Graft System
Figure 71. Engine cover utilizing Kao CNF composite resins
Figure 72. Acrylic resin blended with modified CNF (fluid) and its molded product (transparent film), and image obtained with AFM (CNF 10wt% blended)
Figure 73. Kami Shoji CNF products
Figure 74. 0.3% aqueous dispersion of sulfated esterified CNF and dried transparent film (front side)
Figure 75. BioFlex process
Figure 76. Chitin nanofiber product
Figure 77. Marusumi Paper cellulose nanofiber products
Figure 78. FibriMa cellulose nanofiber powder
Figure 79. Cellulomix production process
Figure 80. Nanobase versus conventional products
Figure 81. MOGU-Wave panels
Figure 82. CNF slurries
Figure 83. Range of CNF products
Figure 84. Reishi
Figure 85. Nippon Paper Industries’ adult diapers
Figure 86. Leather made from leaves
Figure 87. Nike shoe with beLEAF™
Figure 88. CNF clear sheets
Figure 89. Oji Holdings CNF polycarbonate product
Figure 90. XCNF
Figure 91. CNF insulation flat plates
Figure 92. Manufacturing process for STARCEL
Figure 93. Lyocell process
Figure 94. North Face Spiber Moon Parka
Figure 95. Spider silk production
Figure 96. 2 wt.% CNF suspension
Figure 97. BiNFi-s Dry Powder
Figure 98. BiNFi-s Dry Powder and Propylene (PP) Complex Pellet
Figure 99. Silk nanofiber (right) and cocoon of raw material
Figure 100. Sulapac cosmetics containers
Figure 101. Comparison of weight reduction effect using CNF
Figure 102. CNF resin products
Figure 103. Vegea production process
Figure 104. HefCel-coated wood (left) and untreated wood (right) after 30 seconds flame test
Figure 105. Bio-based barrier bags prepared from Tempo-CNF coated bio-HDPE film
Figure 106. Worn Again products
Figure 107. Zelfo Technology GmbH CNF production process

Companies Mentioned (Partial List)

A selection of companies mentioned in this report includes, but is not limited to:

3M
9Fiber, Inc.
Adriano di Marti/Desserto
Aeropowder Limited
AHLSTROM-MUNKSJO Oyj
Algaeing
AlgiKnit
Algix LLC
Amadou Mushroom Leather
AMSilk GmbH
Ananas Anam Ltd.
ANPOLY, Inc.
Arekapak GmbH
Asahi Kasei Chemicals Corporation
Bambooder Biobased Fibers B.V.
BASF SE
Bast Fiber Technologies, Inc.
Bcomp ltd.
Betulium Oy
Beyond Leather Materials ApS
Bio Fab NZ
Bio2Materials
Bioleather
BIO-LUTIONS
Biophilica
BioSolutions
Biotecam
Biotrem
BlockTexx Pty Ltd.
Blue Ocean Closures
Bolt Threads
B-PREG
Bucha Bio
CanvaLoop Fibre Private Limited
Cardolite
C-Combinator
Cellicon B.V.
Cellucomp Ltd.
Cellugy
Cellutech AB (Stora Enso)
Checkerspot, Inc.
Chip[s] Board
Chuetsu Pulp & Paper Co., Ltd.
Circular Systems
Coastgrass ApS
CreaFill Fibers Corporation
Cruz Foam
CuanTec Ltd.
Daicel Corporation
DaikyoNishikawa Corporation
Daio Paper Corporation
Daishowa Paper Products Co. Ltd.
DENSO Corporation
DIC Products, inc.
DKS Co. Ltd.
Eastman
Eco Vegan Leather Private Limited
Ecopel
Ecoshell
Ecovative Design LLC
Ehime Paper Manufacturing Co. Ltd.
Enkev
Evolved By Nature
Evrnu
Fairbrics
Faircraft
Fillerbank Limited
Fiquetex
Fiscatech
Flocus
Flora Fur
Freyzein
Fruit Leather Rotterdam
Fuji Pigment Co., Ltd.
Furoid
Furukawa Electric Co., Ltd.
Gelatex Technologies OÜ
Geneusbiotech
Grado Zero Innovation
Granbio Technologies.
GS Alliance Co. Ltd
Hattori Shoten K.K.
Hemp Black
Hexa Chemical Co. Ltd./Nature Gift
Heyday
Hokuetsu Toyo Fibre Co., Ltd.
Honext Material SL
House of Fluff
Icytos
Infinited Fiber Company Oy
Inspidere B.V.
ISA TanTec
JeNaCell GmbH
Jord
Kami Shoji Company
Kao Corporation
Kelheim Fibres GmbH
Kraig Biocraft Laboratories
KRI Inc.
Kusano Sakko K.K.
Le Qara
Lean Orb
Lenzing
Lingrove, Inc.
Living Ink
Lixea
MakeGrowLab
Malai Biomaterials Design Pvt. Ltd. (Malai)
Marine Innovation Co., Ltd
Marine Nanofiber Co., Ltd.
Marusumi Paper Company Limited
Masuko Sangyo Co., Ltd.
Miko
Mitsubishi Chemical Corporation
Modern Meadow, Inc.
Modern Synthesis
Mogu S.r.l.
Mori Machinery Co., Ltd.
MYCL
MycoWorks
Mylium
Nanollose Ltd.
Natural Fiber Welding, INc.
Nature Coatings, Inc.
NefFa
New Zealand Natural Fibers (NZNF)
Newlight Technologies
Nippon Paper Industries
Nova Kaeru
Nuvi Nomad
Ohoskin
Oimo
Oji Paper COmpany
Oleago
Orange Fiber S.r.l.
Organic Disposables
Osom Brand
Pabaco
Pangaia
Pivot Materials LLC
Plafco Fibertech Oy
Polybion
Pond Biomaterials
Provenance Biofabrics, INc.
Qorium
Re:newcell
Rengo Co., Ltd.
RiceHouse srl
Ripro Corporation
Risho Kogyo Co. Ltd.
SaltyCo Textiles
ScobyTec
Seawear Ltd.
Seevix Material Sciences Ltd.
Seiko PMC Corporation
Sharp Chemical Ind. Co., Ltd.
Slow Factory Labs
Smartfiber AG
Soma Bioworks/White Lemur Co.
Spero Renewables
Spiber, Inc.
Spidey Tek
Spinnova Oy
Spora Biotech
Stora Enso
Sugino Machine Limited
Sulapac Oy
Tandem Repeat
TECNARO GmbH
Tenbro Bamboo Company
Tômtex
Toray
Toyota Boshoku Corporation
TS Tech Co., Ltd.
Unitika Co., Ltd.
Universal Bio Pack Co., Ltd.
UPM Biocomposites
Vegatex Biotech
Vegea srl
ViaeX Technologies
Vibers BV
VitroLabs Inc
von Holzhausen
VTT Technical Research Centre of Finland Ltd
Werewool
Woodly Ltd.
Worn Again Technologies
Yoshikawakuni Plastics Industries Co., Ltd.
Zelfo Technology
Zvnder

Methodology

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Report contents include:

Table of Contents

Companies Mentioned (Partial List)

Methodology

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