L. G. Aggebrandt and O. Samuelson, Penetration of water-soluble polymers into cellulose fibers, Journal of Applied Polymer Science, vol.8, issue.6, pp.2801-2812, 1964.
DOI : 10.1002/app.1964.070080625

Y. Agyei, Deforestation in sub-saharan Africa, African Technology Forum, vol.8, issue.3, p.171, 2009.

F. W. Ahrens and H. Xu, Effect of pulp drying history on pressing and drying, TAPPI Engineering/Process and Product Quality Conference, pp.1009-1024, 1999.

R. Alén, Structure and chemical composition of wood, Forest Products Chemistry, pp.11-57

S. D. Alexander, R. Marton, and S. D. Mcgovern, Effect of beating and wet pressing on fiber and sheet properties: I. Individual fiber properties

B. Alince and T. G. Van-de-ven, Porosity of swollen pulp fibres evaluated by polymer adsorption The fundamentals of papermaking materials: Transactions of the 11th Fundamental Research Symposium, Pira International, vol.2, pp.771-788, 1997.

G. Ander and . Daniel, Morphology of spruce fibre dislocations as studied by balloon swelling and acid cleavage -light and electron microscope observations, Wood Fibre Cell Walls: Methods to Study Their Formation, Structure and Properties, pp.61-199, 2003.

P. Ander, G. Daniel, C. Garcia-lindgren, and A. Marklund, Characterization of industrial and laboratory pulp fibres using HCl, Cellulase and FiberMaster analysis, Nordic Pulp and Paper Research Journal, vol.20, issue.01, pp.115-120, 2005.
DOI : 10.3183/NPPRJ-2005-20-01-p115-121

P. Ander, G. Daniel, B. Pettersson, and U. Westermark, Possible Applications of Cellobiose Oxidizing and Other Flavine Adenine Dinucleotide Enzymes in the Pulp and Paper Industry, Enzymes for Pulp and Paper Processing, pp.297-307, 1921.
DOI : 10.1021/bk-1996-0655.ch023

P. Ander and K. Nyholm, Deformations in wood and spruce pulp fibres: Their importance for wood and pulp properties, Proceedings of the International Symposium on Wood Machining -Properties of Wood and Wood Composites Related to Wood Machining, 2000.

C. Antoine, P. Nygard, Ø. W. Gregersen, R. Holmstad, T. Weitkamp et al., 3D images of paper obtained by phase-contrast X-ray micro tomography: Image quality and binarisation. Nuclear Instruments & Methods in Physics Research Section a-Accelerators Spectrometers Detectors and Associated Equipment, pp.392-402, 2002.

R. Aravamuthar and J. S. Greaves, Effect of multiple recycles on wheat straw fibers, Pulping Conference, Proceedings of the Technical Association of the Pulp and Paper Industry, pp.485-510, 1998.

M. Babiak and J. Kúdela, A contribution to the definition of the fiber saturation point, Wood Science and Technology, vol.29, issue.3, pp.217-226, 1995.
DOI : 10.1007/BF00204589

E. L. Back, Thermal auto-crosslinking in cellulose material. Pulp & Paper Canada, pp.165-171, 1967.

J. R. Barnett and V. A. Bonham, Cellulose microfibril angle in the cell wall of wood fibres, Biological Reviews, vol.44, issue.7, pp.461-472, 2004.
DOI : 10.1105/tpc.005801

A. D. Bawden and R. P. Kibblewhite, Effects of multiple drying treatments on kraft fibre walls, Journal of Pulp and Paper Science, vol.23, issue.7, pp.340-346, 1997.

A. Bergander, Local variability in chemical and physical properties of spruce wood fibers, 2001.

A. Bergander and L. Salmén, Cell wall properties and their effects on the mechanical properties of fibers, Journal of Materials Science, vol.37, issue.1, pp.151-156, 2002.
DOI : 10.1023/A:1013115925679

J. Berthold, J. Desbrieres, M. Rinaudo, and L. Salmén, Types of adsorbed water in relation to the ionic groups and their counterions for some cellulose derivatives, Polymer, issue.26, pp.355729-5736, 1994.
URL : https://hal.archives-ouvertes.fr/hal-00310637

J. Berthold and L. Salmén, Inverse Size Exclusion Chromatography (ISEC) for Determining the Relative Pore Size Distribution of Wood Pulps, Holzforschung, vol.51, issue.4, pp.361-368, 1997.
DOI : 10.1515/hfsg.1997.51.4.361

J. L. Bienfait, Relation of the manner of failure to the structure of wood under compression parallel to the grain, J. Agric. Res, vol.33, issue.2 21, pp.183-194, 1926.

F. A. Blouin, L. F. Martin, and S. P. Rowland, Gel-Permeation Properties of Cellulose, Textile Research Journal, vol.11, issue.9, pp.809-813, 1970.
DOI : 10.1177/004051757004000908

F. C. Bond, The third theory of comminution In Transactions of the American Institute of Mining, Metallurgical and Petroleum Engineers, pp.484-494, 1952.

R. Booker and J. Sell, Nanostruktur der Zeilwand des Nadelholzes und ihre Funktion im lebenden Baum, Holz als Roh- und Werkstoff, vol.8, issue.3, pp.1-8, 1998.
DOI : 10.1007/s001070050255

J. Bouchard and M. Douek, The effect of recycling on the chemical properties of pulps, Journal of Pulp and Paper Science, vol.20, issue.5, pp.131-136, 1973.

A. A. Brancato, Effect of Progressive Recycling on Cellulose Fiber Surface Properties, School of Chemical and Biomolecular Engineering, p.94, 2008.

J. Brändström, S. L. Bardage, G. Daniel, and T. Nilsson, THE STRUCTURAL ORGANISATION OF THE S1 CELL WALL LAYER OF NORWAY SPRUCE TRACHEIDS, IAWA Journal, vol.24, issue.1, pp.27-40, 2003.
DOI : 10.1163/22941932-90000318

K. Bredereck, A. Bluher, and A. Hoffmannfrey, Determination of the pore structure of cellulose fibres by exclusion chromatography, Papier, vol.44, issue.12, pp.648-656, 1921.

C. A. Bronkhorst and K. A. Bennett, Deformation and failure behavior of paper, Handbook of Physical Testing of Paper, pp.314-419, 2001.

W. B. Campbell, The mechanism of bonding. Tappi, pp.42999-1001, 1959.

B. Cao, U. Tschirner, and S. Ramaswamy, Impact of pulp chemical composition on recycling, Tappi Journal, vol.81, issue.12, pp.119-127, 1998.

G. Carlsson and T. Lindstorm, Hornification of cellulosic fibres during wet pressing, Svensk Papperstidning-Nordisk Cellulosa, vol.87, issue.15, pp.119-125, 1984.

L. A. Carlsson and T. Lindstrom, A shear-lag approach to the tensile strength of paper, Composites Science and Technology, vol.65, issue.2, pp.183-189, 2005.
DOI : 10.1016/j.compscitech.2004.06.012

P. C. Carman, Fluid flow through granular beds, Chemical Engineering Research and Design, vol.75, pp.150-166, 1937.
DOI : 10.1016/S0263-8762(97)80003-2

A. Chakraborty, M. M. Sain, M. T. Kortschot, and S. B. Ghosh, Modeling energy consumption for the generation of microfibres from bleached kraft pulp fibres in a PFI mill, BioResources, vol.2, issue.2, pp.210-232, 1926.

Y. M. Chen, J. Q. Wan, and Y. W. Ma, Effect of noncellulosic constituents on physical properties and pore structure of recycled fibre, APPITA Journal, vol.62, issue.4, pp.290-296, 2009.

Y. M. Chen, Y. Wang, J. Q. Wan, and Y. W. Ma, Crystal and pore structure of wheat straw cellulose fiber during recycling, Cellulose, vol.1, issue.9, pp.329-338, 2010.
DOI : 10.1007/s10570-009-9368-z

M. S. Cintrón, G. P. Johnson, and A. French, Young???s modulus calculations for cellulose I?? by MM3 and quantum mechanics, Cellulose, vol.1, issue.3, pp.505-516, 2011.
DOI : 10.1007/s10570-011-9507-1

S. R. Corson, Influence of fibre and fines fractions on thermomechanical pulp properties. Doctoral thesis, The Norwegian Institute of Technology, p.61, 1979.

E. Recovered and P. Council, European declaration on paper recyclingOnline; accessed 16, 1932.

E. Recovered and P. Council, Five years of raising the bar in paper recycling. http://www.paperforrecycling.eu/uploads/Modules/ Newsmanager/erpc-monitoring-report-2010-final-2.pdf. [Online; accessed 16, 1932.

W. F. Cowan, Zero/short span tensile testing can determine basic paper properties, Pulp Paper, vol.60, issue.123, pp.84-86, 1986.

W. F. Cowan and E. J. Cowdrey, Evolution of paper strength components by short-span tensile analysis. Tappi, pp.90-93, 1974.

R. L. Crawford, Lignin biodegradation and transformation. Wiley Interscience publication, 1981.

D. Da-silva-perez, D. Reich, D. Moineau, G. Eymin-petot-tourtollet, and A. Guillemain, On-line measurement of pulp and fibre quality : sampling and analytical devices, COST E41 workshop, Proceedings, Bled, Slovenia, p.17, 2007.

G. D. Danilatos, Optimum beam transfer in the environmental scanning electron microscope, Journal of Microscopy, vol.10, issue.Heft 1, pp.26-37, 2009.
DOI : 10.1111/j.1365-2818.2009.03148.x

H. Darcy, Les fontaines publiques de la ville de Dijon : exposition et application des principes à suivre et des formules à employer dans les questions de distribution d'eau, V. Dalmont, vol.17, pp.1856-158

G. De-silveira, P. Forsberg, T. E. Conners, and S. Banerjee, Scanning electron microscopy: A tool for the analysis of wood pulp fibers and paper

J. M. Diniz, M. H. Gil, and J. A. Castro, Hornification?its origin and interpretation in wood pulps, Wood Science and Technology, vol.37, issue.6, pp.489-494, 2004.
DOI : 10.1007/s00226-003-0216-2

J. C. Domec and B. L. Gartner, How do water transport and water storage differ in coniferous earlywood and latewood?, Journal of Experimental Botany, vol.53, issue.379, pp.2369-2379, 2002.
DOI : 10.1093/jxb/erf100

I. Duchesne and J. C. Daniel, The ultrastructure of wood fibre surfaces as shown by a variety of microscopical methods ?? a review, Nordic Pulp and Paper Research Journal, vol.14, issue.02, pp.129-139, 1999.
DOI : 10.3183/NPPRJ-1999-14-02-p129-139

I. Duchesne and J. C. Daniel, Changes in surface ultrastructure of Norway spruce fibres during kraft pulping - visualisation by field emission-SEM, Nordic Pulp and Paper Research Journal, vol.15, issue.01, pp.54-61, 2000.
DOI : 10.3183/NPPRJ-2000-15-01-p054-061

D. F. Dumbleton, Longitudinal compression of individual pulp fibers. Tappi, pp.461-467, 1972.

F. Foresstat, Online; accessed 16, p.172, 2012.

B. D. Favis and D. A. Goring, A model for the leaching of lignin macromolecules from pulp fibres, Journal of Pulp and Paper Science, vol.10, issue.13, pp.139-143, 1984.

B. D. Favis, W. Q. Yean, and D. A. Goring, Molecular Weight of Lignin Fractions Leached from Unbleached Kraft Pulp Fibers, Journal of Wood Chemistry and Technology, vol.2, issue.3, pp.313-320, 1984.
DOI : 10.1080/02773818408070651

C. Fellers, Paper physics, Pulp and Paper Chemistry and Technology: Paper Products Physics and Technology, pp.25-67, 2009.

D. Fengel and D. Grosser, Chemical composition of softwoods and hardwoods???A bibliographical review, Holz als Roh- und Werkstoff, vol.19, issue.No. 6, pp.32-34, 1975.
DOI : 10.1007/BF02612913

D. Fengel and M. Stoll, ??ber die Ver??nderungen des Zellquerschnitts, der Dicke der Zellwand und der Wandschichten von Fichtenholz-Tracheiden innerhalb eines Jahrringes, Holzforschung, vol.27, issue.1, pp.1-7, 1973.
DOI : 10.1515/hfsg.1973.27.1.1

D. Fengel and G. Wegener, Wood: Chemistry, Ultrastructure, Reactions, 1989.
DOI : 10.1515/9783110839654

F. Indexes, Market comments -general economy and pix european and chinese indices. http://www.foex.fi/index.php? mact=News,cntnt01,detail,0&cntnt01articleid=195&cntnt01origid= 15&cntnt01returnid=81 [Online; accessed 3, p.173, 2012.

O. L. Forgacs, Structural weaknesses in softwood pulp tracheids. Tappi, pp.112-119, 1921.

A. Frey-wyssling, R??ntgenometrische Vermessung der submikroskopischen R??ume in Ger??stsubstanzen, Protoplasma, vol.132, issue.1, pp.372-411, 1937.
DOI : 10.1007/BF01599405

H. W. Giertz, Ännu ett sätt att se på malningsprocessen, Norsk Skogsindustri, vol.18, issue.7, pp.239-248, 1964.

H. W. Giertz, The influence of beating on individual fibers and the causal effects on paper properties Institute of Paper Chemistry, International Symposium on Fundamental Concepts of Refining, pp.87-92, 1980.

A. A. Gorbunov, L. Y. Solovyova, and V. A. Pasechnik, Fundamentals of the theory and practice of polymer gel-permeation chromatography as a method of chromatographic porosimetry, Journal of Chromatography A, vol.448, pp.307-332, 1921.
DOI : 10.1016/S0021-9673(01)84594-5

D. A. Goring, A Speculative Picture of the Delignification Process, Cellulose Chemistry and Technology, pp.273-277, 2011.
DOI : 10.1021/bk-1977-0048.ch019

J. Grignon and A. M. Scallan, Effect of pH and neutral salts upon the swelling of cellulose gels, Journal of Applied Polymer Science, vol.25, issue.12, pp.2829-2843, 1980.
DOI : 10.1002/app.1980.070251215

N. Gurnagul, D. H. Page, and M. G. Paice, The effect of cellulose degradation on the strength of wood pulp fibres, Nordic Pulp and Paper Research Journal, vol.07, issue.03, pp.152-154, 1992.
DOI : 10.3183/NPPRJ-1992-07-03-p152-154

N. Gurnagul and R. S. Seth, Wet-web strength of hardwood kraft pulps. Pulp & Paper Canada, pp.44-48, 1997.

H. H. Dolmetsch-u and . Dolmetsch, Über die Beziehung zwischen Kristalliten , Elementarfibrillen u. zugänglichen Bereichen in Cellulosefasern Insbesondere in Holzfaserzellwänden, Das Papier, vol.22, issue.1, pp.1-11, 1968.

L. Hagel and P. L. Dubin, Chapter 5 Pore Size Distributions, Journal of chromatography library, vol.40, pp.119-155, 1988.
DOI : 10.1016/S0301-4770(08)60709-5

P. Hakkila, Structure and properties of wood and woody biomass In Forest resources and sustainable management, page 129 Published in cooperation with the Finnish Paper Engineers' Association and TAPPI, 1998.

N. Hartler, Aspects on curled and microcompressed fibers, Nordic Pulp and Paper Research Journal, vol.10, issue.01, pp.1-7, 1921.
DOI : 10.3183/NPPRJ-1995-10-01-p004-007

T. Hattula and H. Niemi, Sulphate pulp fibre flexibility and its effect on sheet strength, pp.356-361, 1988.

A. Heikkurinen, Single fiber properties, Pulp and Paper Testing, p.24, 1998.

R. R. Higham, In A handbook of papermaking: The technology of pulp, paper and board manufacture, page 400, Business Books, issue.6, 1968.

H. S. Hill, J. Edwards, and L. R. Beath, Curlated pulp -A new approach to pulp processing, Tappi, vol.33, issue.1, pp.36-44, 1950.

R. G. Holdich, Crushing and classification, Fundamentals of particle technology, pp.113-122, 2002.

R. A. Horn, Morphology of wood pulp fiber from softwoods and influence on paper strength. United States Department of Agriculture, Forest Service, pp.1-11, 1974.

R. C. Howard and W. Bichard, The Basic Effects of Recycling on Pulp Properties, MRS Proceedings, vol.31, issue.4, pp.151-159, 1992.
DOI : 10.1557/PROC-266-195

M. A. Hubbe, R. A. Venditti, and O. J. Rojas, What happens to cellulosic fibers during papermaking and recycling? A review, BioResources, vol.2, issue.4, pp.739-788, 2007.

E. L. Hult, DCP/MAS 13 C-NMR spectroscopy applied to structure and interaction studies on wood and pulp fibers, p.175, 2001.

E. L. Hult, P. T. Larsson, and T. Iversen, Cellulose fibril aggregation ??? an inherent property of kraft pulps, Polymer, vol.42, issue.8, pp.3309-3314, 2001.
DOI : 10.1016/S0032-3861(00)00774-6

M. Ilvessalo-pföffli, In Fiber Atlas: Identification of Papermaking Fibers, p.15, 1995.
DOI : 10.1007/978-3-662-07212-7

K. Ishikiriyama, M. Todoki, T. Kobayashi, and H. Tanzawa, Pore Size Distribution Measurements of Poly(methyl methacrylate) Hydrogel Membranes for Artificial Kidneys Using Differential Scanning Calorimetry, Journal of Colloid and Interface Science, vol.173, issue.2, pp.419-428, 1995.
DOI : 10.1006/jcis.1995.1342

S. Janardhnan and M. Sain, Bio-Treatment of Natural Fibers in Isolation of Cellulose Nanofibres: Impact of Pre-Refining of Fibers on Bio-Treatment Efficiency and Nanofiber Yield, Journal of Polymers and the Environment, vol.16, issue.1, pp.615-621, 2011.
DOI : 10.1007/s10924-011-0312-6

P. Jandera and G. Henze, Liquid chromatography, 1. Fundamentals, history , instrumentation, materials. In Ullmann's Encyclopedia of Industrial Chemistry, pp.85-138, 2002.

H. F. Jang, R. Amiri, R. S. Seth, and A. Karnis, Fiber characterization using confocal microscopy -collapse behavior of mechanical pulp fibers, Tappi Journal, vol.79, issue.4, pp.203-210, 1996.

G. Jayme, Mikro-Quellungsmessungen an Zellstoffen. Der Papier- Fabrikant, pp.187-194, 1944.

G. Jayme and M. Harders-steinhauser, Über die Erkennung von Dichte Unterschieden in Cellulosefasern durch Doppelfärbung, Das Papier, vol.22, issue.921, pp.507-510, 1955.

G. Jayme and G. Hunger, Electron microscope 2-and 3-dimensional classification of fibre bonding British Paper and Board Makers' Association, Technical Section, Transactions of the Symposium Held at Oxford, p.28, 1961.

G. Jayme and G. Hunger, Rearrangement of microfibrils in dried cellulose and the implication of this structure alteration on pulp properties. Fundamentals of Papermaking Fibres, Transactions of the Symposium, pp.263-271, 1958.

G. Jayme and L. Rothamel, Development of a standard centrifugal method for determining the swelling values of pulps, Das Papier, vol.2, issue.11, pp.7-18, 1948.

C. A. Jentzen, The effect of stress applied during drying on some of the properties of individual pulp fibers, p.203, 1929.

T. Johansson, H. Paulapuro, and T. C. Maloney, Removal of water from the cell wall during drying, PITA Water Removal Conference, pp.39-47, 1997.

T. Kang, Role of External Fibrillation in Pulp and Paper Properties, 2007.

C. T. Keith, W. A. Jr, . J. Côté-]-r, and . Kerekes, Microscopic characterization of slip lines and compression failures in wood cell walls. Forest Products Journal CANFOR Pulp refining seminar Part I: Basics, pp.67-74, 1925.

R. J. Kerekes, Characterizing refining action in PFI mills, Tappi Journal, vol.4, issue.3, pp.9-13, 2005.

A. J. Kerr and D. A. Goring, The Role of Hemicellulose in the Delignification of Wood, Canadian Journal of Chemistry, vol.53, issue.6, pp.952-959, 1975.
DOI : 10.1139/v75-134

R. P. Kibblewhite, Fractures and dislocations in the walls of kraft and bisulphite pulp fibres, Cellulose chemistry and technology, vol.10, issue.4, pp.497-503, 1921.

R. P. Kibblewhite and D. Brooks, Factors which influence the wet-web strength of commercial pulps, APPITA Journal, vol.28, issue.4, pp.227-231, 1975.

F. K. Felix and A. , Das Gesetz der proportionalen Widerstände und seine Anwendungen

H. Kjellgren, Influence of paper properties and polymer coatings on barrier properties of greaseproof paper, p.25, 2007.

J. H. Klungness and D. F. Caufield, Mechanisms affecting fiber bonding during drying and aging of pulps, Tappi Journal, vol.65, issue.12, pp.94-97, 1982.

A. Kongdee, T. Bechtold, E. Burtscher, and M. Scheinecker, Inverse size exclusion chromatography -a technique of pore characterisation in textile materials, Lenzinger Berichte, vol.82, pp.96-101, 0193.

E. J. Kontturi, Surface chemistry of cellulose : From natural fibres to model surfaces, p.93, 2005.

J. E. Lain, Fibre saturation point by inverse gel filtration, pp.735-736, 1921.

P. R. Larson, A biological approach to wood quality. Tappi, pp.443-448, 1962.

P. R. Larson, Wood formation and the concept of wood quality, Bull, vol.1, issue.74 5, 1969.

P. Larsson, Dimensional Stability of Paper : Influence of Fibre-Fibre Joints and Fibre Wall Oxidation, p.98, 2008.

P. T. Larsson, K. Wickholm, and T. Iversen, A CP/MAS13C NMR investigation of molecular ordering in celluloses, Carbohydrate Research, vol.302, issue.1-2, pp.19-25, 1997.
DOI : 10.1016/S0008-6215(97)00130-4

J. Lenz, J. Schurz, and E. Wrentschur, Vergleichende Untersuchungen zur Faserbildung aus Lösungen von Cellulose in organischen Lösungsmitteln und Cellulolsederivaten in Natronlauge, pp.663-679, 1988.

T. Q. Li, U. Henriksson, and L. Ödberg, Determination of pore sizes in wood cellulose fibers by 2H and 1H NMR, Nordic Pulp & Paper Research Journal, vol.8, issue.13, pp.326-330, 1993.

J. K. Lin, M. R. Ladisch, J. A. Patterson, and C. H. Noller, Determining pore size distribution in wet cellulose by measuring solute exclusion using a differential refractometer, Biotechnology and Bioengineering, vol.31, issue.8, pp.976-981, 1987.
DOI : 10.1002/bit.260290809

T. Lindstörm, L. Wågberg, and T. Larsson, On the nature of joint strength in paper -A review of dry and wet strength resins in paper manufacturing Advances in paper science and technology: transactions of the 13th Fundamental Research Symposium, pp.457-562, 2005.

A. A. Lossada, J. C. Formento, and A. L. Pino, Refining selected actions on chemical pulps in a PFI beater. Part I : Effects of radial compression stresses, pp.326-331, 2001.

J. Lumiainen, Refining of chemical pulp Papermaking: Stock preparation and wet end, Papermaking Science and Technology Fapet Oy, vol.8, pp.87-122, 1925.

S. O. Lundqvist, Application of SilviScan for optimal utilization of forests in Sweden, Presentation at the Marcus Wallenberg Prize Seminar, National museum, 2001.

G. Lunn, Chromatography, liquid In Kirk-Othmer Encyclopedia of Chemical Technology, pp.440-468, 2004.

L. M. Lyne and W. Gallay, Measuement of wet strength, Tappi, vol.37, issue.12, pp.694-698, 1927.

T. C. Maloney, On the pore structure and dewatering properties of the pulp fiber cell wall, p.33, 2000.

T. C. Maloney, T. Q. Li, U. Weise, and H. Paulapuro, Intra-and inter-fibre pore closure in wet pressing, APPITA Journal, vol.50, issue.4, pp.301-306, 1997.

T. C. Maloney and H. Paulapuro, Thermoporosimetry of pulp fibers, The Science of Papermaking Transactions of the 12th Fundamental Research Symposium, pp.897-926, 2001.

T. C. Maloney, A. Todorovic, and H. Paulapuro, The effect of fiber swelling on press dewatering, Nordic Pulp and Paper Research Journal, vol.13, issue.04, pp.285-291, 1998.
DOI : 10.3183/NPPRJ-1998-13-04-p285-291

L. F. Martin, F. A. Blouin, and S. P. Rowland, Characterization of the Internal Pore Structures of Cotton and Chemically Modified Cottons by Gel Permeation, Separation Science, vol.52, issue.2, pp.287-296, 1971.
DOI : 10.1080/00372367108058962

L. F. Martin and S. P. Rowland, Gel permeation properties of cellulose. I. Preliminary comparison of unmodified and crosslinked, decrystallized cotton cellulose, Journal of Polymer Science Part A-1: Polymer Chemistry, vol.5, issue.10, pp.2563-2578, 1967.
DOI : 10.1002/pol.1967.150051009

R. Marton and S. D. Mcgover, Relation of crystallite dimensions of fibrillar orientation to fiber properties, pp.153-158, 1970.

M. Matsuo, C. Sawatari, Y. Iwai, and F. Ozaki, Effect of orientation distribution and crystallinity on the measurement by x-ray diffraction of the crystal lattice moduli of cellulose I and II, Macromolecules, vol.23, issue.13, pp.3266-3275, 1990.
DOI : 10.1021/ma00215a012

J. W. Mc-bain, Die Hauptprinzipien der Kolloidchemie, Kolloid-Zeitschrift, vol.40, issue.1, pp.1-9, 1920.
DOI : 10.1007/BF01422275

B. A. Meylan and B. G. Butterfield, Three-Dimensional Structure of Wood: A Scanning Electron Microscope Study, Syracuse Wood Science Series

J. L. Minor, Hornification -its origin and meaning, Progrress in Paper Recycling, pp.93-95, 1994.

U. B. Mohlin and C. Alfredsson, Fibre deformation and its implications in pulp characterization, Nordic Pulp and Paper Research Journal, vol.05, issue.04, pp.172-179, 1990.
DOI : 10.3183/NPPRJ-1990-05-04-p172-179

U. B. Mohlin, J. Dahlbom, and J. Hornatowska, Fiber deformation and sheet strength, Tappi Journal, vol.79, issue.6, pp.105-111, 1996.

C. N. News, fossils show origins of wood, 2011.

N. Nilsen, M. Zabihian, and K. Niskanen, KCL-PAKKA: A tool for simulating paper properties, Tappi Journal, vol.18, issue.115, pp.163-166, 1998.

T. Nishino, K. Takano, and K. Nakamae, Elastic modulus of the crystalline regions of cellulose polymorphs, Journal of Polymer Science Part B: Polymer Physics, vol.33, issue.11, pp.1647-1651, 1995.
DOI : 10.1002/polb.1995.090331110

K. Nyholm, P. Ander, S. Bardage, and G. Daniel, Dislocations in pulp fibres - their origin, characteristics and importance - a review, Nordic Pulp and Paper Research Journal, vol.16, issue.04, pp.376-384, 2001.
DOI : 10.3183/NPPRJ-2001-16-04-p376-384

&. Food and . Organization, State of the World's Forests 2011, Food & Agriculture Organization of the United Nations (FAO), 2011.

C. Ottestam, P. Engstrand, M. Htun, B. Sjögren, and K. Ölander, Modified wrv method for measuring the swelling properties of mechanical pulps, 1991 International Mechanical Pulping Conference Proceedings, pp.87-89, 1991.

L. Paavilainen, The possibility of fractionating softwood sulfate pulp according to cell wall thickness, APPITA Journal, vol.45, issue.5 7, pp.319-326, 1992.

D. H. Page, A theory for the tensile strength of paper, Tappi, vol.52, issue.4, pp.674-681, 1969.

D. H. Page, The beating of chemical pulps -The action and the effects In 9th Fundamental Research Symposium on Fundamentals of paper-making, volume 1 of Fundamentals of paper-making, Mechanical Engineering Publications Limited, vol.25, pp.1-37, 1989.

D. H. Page, The mechanism of strength development of dried pulps by beating, Svensk Papperstidning, vol.88, issue.110, pp.30-35, 1989.

D. H. Page, A quantitative theory of the strength of wet webs, Journal of Pulp and Paper Science, vol.19, issue.4, pp.175-176, 1927.

D. H. Page, F. El-hosseiny, K. Winkler, and R. Bain, The mechanical properties of single wood-pulp fibres. Part1: A new approach. Pulp & Paper Magazine of Canada, pp.72-76, 0200.

D. H. Page, F. Elhosseiny, K. Winkler, and A. P. Lancaster, Elastic modulus of single wood pulp fibers. Tappi, pp.114-117, 1977.

D. H. Page, R. S. Seth, B. D. Jordan, and M. C. Barbe, Curl, crimps, kinks and microcompressions in pulp fibres their origin, measurement and significance . In Paper making raw materials: their interactions with the production process and their effect on paper properties. Transactions of the 8th Fundamental Research Symposium, Mechanical Engineering Publications Limited, vol.1, issue.16, pp.183-227, 1985.

A. J. Panshin and C. Dezeeuw, Textbook of Wood Technology: Structure, Identification, Properties, and Uses of the Commercial Woods of the United States and Canada, 1980.

R. Patt, O. Kordsachia, R. Süttinger, and . Pulp, In Ullmann's Encyclopedia of Industrial Chemistry, pp.477-540, 2002.

J. Porath and P. Flodin, Gel Filtration: A Method for Desalting and Group Separation, Nature, vol.62, issue.4676, pp.1657-1659, 1920.
DOI : 10.1016/0095-8522(58)90041-2

B. R. Porter and M. L. Rollins, Changes in porosity of treated lint cotton fibers. I. Purification and swelling treatments, Journal of Applied Polymer Science, vol.16, issue.1, pp.217-236, 1920.
DOI : 10.1002/app.1972.070160119

I. Pulkkinen and V. Alopaeus, The effect of fiber dimensions on fiber network activation and tensile strength, Holzforschung, vol.66, issue.1, pp.111-117, 2012.
DOI : 10.1515/HF.2011.120

R. P. Rittinger, Lehrbuch der Aufbereitungskunde, pp.1867-1892

A. A. Robertson, Some observations on the effects of drying papermaking fibres. Pulp and Paper Magazine, pp.161-168, 1964.

W. Robinson, The Microscopical Features of Mechanical Strains in Timber and the Bearing of these on the Structure of the Cell-Wall in Plants, Printed and published for the Royal society by Harrison and sons, p.22, 1920.
DOI : 10.1098/rstb.1921.0002

J. C. Roux, G. Joris, and G. Caucal, Raffinage séparé ou en mélange, quels outils à mettre en oeuvre pour optimiser la composition fibreuse, réduire la consommation énergétique pour la régularité de la qualité, Revue A.T.I.P, vol.56, issue.3, pp.9-16, 2002.

J. C. Roux, G. Joris, and G. Caucal, Optimising interactivity of chemicals and processes in the wet end, 4th major 2 day PIRA International Conference and exhibitiion plus industry breifing : Starch technology in papermaking , Radisson SAS Hotel, p.46, 2004.

A. W. Rudie, J. Morra, J. M. St, K. L. Laurent, and . Hickey, The influence of wood and fiber properties on mechanical pulping, Tappi Journal, vol.77, issue.6, pp.86-90, 1994.

G. Ruffini, Improvement of bonding of wood pulps by the presence of acidic groups, Svensk Papperstidning, vol.69, issue.3, pp.72-76, 1966.

U. Sahlberg, L. Salmén, and A. Oscarsson, The fibrillar orientation in the S2-layer of wood fibres as determined by X-ray diffraction analysis, Wood Science and Technology, vol.4, issue.3, pp.77-86, 1997.
DOI : 10.1007/BF00705923

I. Sakurada, Y. Nukushina, and T. Ito, Experimental determination of the elastic modulus of crystalline regions in oriented polymers, Journal of Polymer Science, vol.57, issue.165, pp.651-660, 1962.
DOI : 10.1002/pol.1962.1205716551

L. Salmén, Structure and properties of fibres, Pulp and Paper Chemistry and Technology: Paper Chemistry and Technology, pp.15-22

L. Salmén, Structure and properties of fibres, Pulp and Paper Chemistry and Technology: Paper Chemistry and Technology, pp.29-30, 1924.

L. Salmén and . Berthold, Effects of mechanical and chemical treatments on the pore-size distribution in wood pulps examined by inverse sizeexclusion chromatography, Journal of Pulp and Paper Science, vol.23, issue.6, pp.245-253, 1997.

E. J. Samuelsen, P. J. Houen, Ø. W. Gregersen, T. Helle, and C. Raven, Three-dimensional imaging of paper by use of synchrotron X-ray microtomography, Journal of Pulp and Paper Science, vol.27, issue.115, pp.50-53, 2001.

A. M. Scallan, The structure of the cell wall of wood -A consequence of anisotropic inter-microfibrillar bonding, Wood Science, vol.6, issue.11, pp.266-271, 1974.

A. M. Scallan and J. E. Stone, The effect of component removal upon the porous structure of the cell wall of wood. II. Swelling in water and the fiber saturation point, Tappi, vol.13, issue.10, pp.50496-501, 1967.

A. M. Scallan and A. C. Tigerström, Swelling and elasticity of the cell walls of pulp fibres, Journal of Pulp and Paper Science, vol.18, issue.33, pp.188-193, 1992.

R. S. Seth, The effect of fiber length and coarseness on the tensile strength of wet webs: a statistical geometry explanation, Tappi Journal, vol.99, issue.11, pp.99-102, 1995.

R. S. Seth, The importance of fibre straightness for pulp strength. Pulp & Paper Canada, pp.34-42, 2006.

R. S. Seth and D. H. Page, The mechanism of the strength and extensibility of wet webs, p.797, 1983.

H. Sihtola, B. Kyrklund, L. Laamanen, and I. Palenius, Comparison and conversion of viscosity and DP-Values determined by different methods

J. Silvy, G. Romantier, and R. Chiodi, Méthodes pratiques de côntrole du raffinage, Revue ATIP, vol.22, issue.1, pp.31-53, 1968.

J. Silvy, G. Sarret, and F. Jestin, Evaluation des fractions d'eau de rétention extrafibres et intra, Atti del Congresso Europeo di Tecnica Cartaria, pp.169-185, 1964.

E. Sjöström, Wood Chemistry: Fundamentals and Applications, 1993.

R. M. Soszynski and R. J. Kerekes, Elastic interlocking of nylon fibers suspended in liquid??Part 1. Nature of cohesion among fibers, Nordic Pulp and Paper Research Journal, vol.03, issue.04, pp.180-184, 1988.
DOI : 10.3183/NPPRJ-1988-03-04-p172-179

B. Steenberg, Beating process studied by fiber swelling, Svensk Papperstidning, vol.50, issue.11B, pp.155-163, 1947.

J. E. Stone and A. M. Scallan, Influence of drying on the pore structure of the cell wall, Consolidation of the paper web: transactions of the symposium held at Cambridge British Paper and Board Makers' Association, pp.145-174, 1966.

J. E. Stone and A. M. Scallan, A structural model for the cell wall of water swollen pulp fibres based on their accessibility to macromolecules, Cellulose Chemistry and Technology, vol.19, issue.33, pp.342-358, 1968.

J. E. Stone and A. M. Scallan, The effect of component removal upon the porous structure of the cell wall of wood. Part III. A comparison between the sulphite and kraft processes, Pulp & Paper Canada, issue.69, pp.69-74, 1968.

J. E. Stone, A. M. Scallan, and B. Abrahamson, Influence of beating on cell wall swelling and internal fibrillation, Svensk Papperstidning, vol.19, issue.13, pp.687-694, 1968.

J. E. Stone, E. Treibere, and B. Abrahamson, Accessibility of regenerated cellulose to solute molecules of the molecular weight of 180

R. Stratton and A. Colson, Fiber wall damage during bond failure, Nordic Pulp and Paper Research Journal, vol.08, issue.02, pp.245-257, 1989.
DOI : 10.3183/NPPRJ-1993-08-02-p245-250

A. ?turcová, G. R. Davies, and S. J. Eichhorn, Elastic Modulus and Stress-Transfer Properties of Tunicate Cellulose Whiskers, Biomacromolecules, vol.6, issue.2, pp.1055-1061, 2005.
DOI : 10.1021/bm049291k

H. D. Tiemann, Effect of moisture upon the strength and stiffness of wood, Bulletin, vol.6371, pp.114-116, 1906.

M. S. Tswett, Physikalisch-chemische Studien über das chlorophyll. Die Adsorptionen, Berichte der Deutschen Botanischen Gesellschaft, issue.24, pp.316-323, 1906.

J. Tyrvainen, Newsgrade TMP from three different norway spruce (Picea abies) wood assortments in mill-scale: Their different qualities could be used to make specific paper products, Pulp & Paper Canada, issue.10, p.98, 1997.

D. M. Updegraff, Semimicro determination of cellulose inbiological materials, Analytical Biochemistry, vol.32, issue.3, pp.420-424, 1969.
DOI : 10.1016/S0003-2697(69)80009-6

A. Vainio and H. Paulapuro, Interfiber bonding and fiber segment activation in paper, BioResources, vol.2, issue.3, pp.442-458, 1927.

J. A. Van-den-akker, A. L. Lathrop, M. H. Voelker, and L. R. Dearth, Importance of fibre strength in paper, Tappi, issue.8, pp.41416-425, 1958.

J. A. Van-den-akker, W. Å. Wink, and R. H. Van-eperen, Instrumentation studies. LXXXIX. Tearing strength of paper. III. Tearing resistance by the in-plane mode of tear, Tappi, vol.50, issue.9, pp.466-470, 1967.

C. P. Wade, Preparation of whole-fiber cotton gel-filtration chromatography columns, Journal of Chromatography A, vol.268, issue.0, pp.187-195, 1921.
DOI : 10.1016/S0021-9673(01)95405-6

X. Wang, Improving the Papermaking Properties of Kraft Pulp by Controlling Hornification and Internal Fibrillation, p.169, 2006.

X. Wang and K. R. Braaten, Growth rings and spruce pulpwood sorting, Nordic Pulp and Paper Research Journal, vol.12, issue.03, pp.196-202, 1997.
DOI : 10.3183/NPPRJ-1997-12-03-p196-202

A. B. Wardrop and H. E. , The occurrence, structure and properties of certain cell wall deformations. Council For Scientific and Industrial Research, pp.14-40, 1947.

R. H. Waring and S. W. Running, SECTION I: Introduction to Analysis of Seasonal Cycles of Water, Carbon, and Minerals through Forest Stands, pp.17-144, 2007.
DOI : 10.1016/B978-012370605-8.50006-2

G. Weingarten, Sulle superficie di discontinuità nella teoria della elasticità dei corpi solidi, Rendiconti Lincei, vol.10, issue.5, pp.57-60, 1901.

U. Weise, Hornification -mechanisms and terminology, pp.110-115, 1998.

U. Weise, L. E. Hiltunen, and H. Paulapuro, Verhornung von Zellstoff und Maßnahmen zu ihrer Reversion, Das Papier, vol.52, issue.10A, pp.14-19, 1998.

U. Weise and H. Paulapuro, Changes of fibre dimensions during drying, International Paper Physics Conference, pp.121-124, 1995.

U. Weise and H. Paulapuro, The effect of drying and re-wetting cycles on fibre swelling, Fourth European Workshop on Lignocellulosics and Pulp, pp.389-394, 1996.

M. Wennerblom, A. D. Frövi, A. M. Olsson, and L. Salmén, Softening properties of earlywood and latewood of spruce, Nordic Pulp and Paper Research Journal, vol.11, issue.04, pp.279-280, 1996.
DOI : 10.3183/NPPRJ-1996-11-04-p279-280

U. Westermark, O. Lindbrandt, and I. Eriksson, Lignin distribution in spruce (Picea abies) determined by mercurization with SEM-EDXA technique, Wood Science and Technology, vol.58, issue.3, pp.243-250, 1988.
DOI : 10.1007/BF00386019

K. Wickholm, Structural Elements in Native Celluloses, Pulp and Paper Technology, 2001.

K. Wickholm, P. T. Larsson, and T. Iversen, Assignment of non-crystalline forms in cellulose I by CP/MAS 13C NMR spectroscopy, Carbohydrate Research, vol.312, issue.3, pp.123-129, 1998.
DOI : 10.1016/S0008-6215(98)00236-5

A. P. Wilkins, The nomenclature of cell wall deformations, Wood Science and Technology, vol.20, pp.97-109, 1986.

J. M. Willis, W. Q. Yean, and D. A. Goring, Molecular Weights of Lignosulphonate and Carbohydrate Leached from Sulphite Chemimechanical Pulp, Journal of Wood Chemistry and Technology, vol.19, issue.2, pp.259-268, 1987.
DOI : 10.1002/app.1979.070240406

J. W. Wilson and R. W. Wellwood, In Intra-increment chemical properties of certain western Canadian coniferous species, 1965.

P. Zugenmaier, Introduction, Crystalline Cellulose and Derivatives: Characterization and Structures, pp.4-72, 2008.
DOI : 10.1007/978-3-540-73934-0_1