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paper (75) 75
flexible materials not otherwise provided for (74) 74
laundering (74) 74
textiles (74) 74
treatment of textiles or the like (74) 74
flexible sheet material not otherwise provided for (71) 71
wall, floor or like covering materials, e.g. linoleum,oilcloth, artificial leather, roofing felt, consisting of afibrous web coated with a layer of macromolecularmaterial (71) 71
performing operations (26) 26
transporting (26) 26
chemistry (20) 20
layered products (16) 16
layered products, i.e. products built-up of strata of flat ornon-flat, e.g. cellular or honeycomb, form (16) 16
metallurgy (16) 16
looms (14) 14
methods of weaving (14) 14
weaving (14) 14
web-like network (14) 14
woven fabrics (14) 14
compositions based thereon (13) 13
organic macromolecular compounds (13) 13
their preparation or chemical working-up (13) 13
braiding (12) 12
cellulose (12) 12
knitting (12) 12
lace-making (12) 12
non-woven fabrics (12) 12
trimmings (12) 12
adhesives (11) 11
dyes (11) 11
miscellaneous applications of materials (11) 11
miscellaneous compositions (11) 11
natural resins (11) 11
paints (11) 11
polishes (11) 11
macromolecular compounds obtained otherwise than by reactionsonly involving unsaturated carbon-to-carbon bonds (10) 10
polymer science (10) 10
chemical paint or ink removers (9) 9
coating compositions, e.g. paints, varnishes orlacquers (9) 9
composites (9) 9
correcting fluids (9) 9
filling pastes (9) 9
inks (9) 9
pastes or solids for colouring or printing (9) 9
use of materials therefor (9) 9
woodstains (9) 9
conveying (8) 8
handling thin or filamentary material (8) 8
packing (8) 8
storing (8) 8
cotton-wool (7) 7
fabrics made by such processes or apparatus, e.g. felts,non-woven fabrics (7) 7
making textile fabrics, e.g. from fibres or filamentarymaterial (7) 7
microfibrillated cellulose (7) 7
treatment, not provided for elsewhere in class d06, of fibres, threads, yarns,fabrics, feathers, or fibrous goods made from such materials (7) 7
wadding (7) 7
electricity (6) 6
general tagging of cross-sectional technologies spanning over several sections of the ipc (6) 6
general tagging of new technological developments (6) 6
handling thin or filamentary material, e.g. sheets, webs,cables (6) 6
mechanical-properties (6) 6
physics (6) 6
technical subjects covered by former uspc cross-reference art collections [xracs] and digests (6) 6
adhesive processes not provided for elsewhere (5) 5
bacterial cellulose (5) 5
compositions of macromolecular compounds (5) 5
fixed constructions (5) 5
non-mechanical aspects of adhesive processes in general (5) 5
technical subjects covered by former us classification (5) 5
technical subjects covered by former uspc (5) 5
use of inorganic or non-macromolecular organic substances ascompounding ingredients (5) 5
use of materials as adhesives (5) 5
after-treatment of the shaped products, e.g. repairing (4) 4
basic electric elements (4) 4
biocomposites (4) 4
building (4) 4
chemistry, organic (4) 4
materials science, textiles (4) 4
nanotechnology (4) 4
physical chemistry (4) 4
polymer sciences (4) 4
shaping of material in a plastic state, not otherwise providedfor (4) 4
shaping or joining of plastics (4) 4
working of plastics (4) 4
working of substances in a plastic state, in general (4) 4
analysis (3) 3
apparatus specially adapted for the manufacture of carbonfilaments (3) 3
cellulose - chemistry (3) 3
chemical features in the manufacture of artificial filaments,threads, fibres, bristles or ribbons (3) 3
crimping or curling fibres, filaments, threads, oryarns (3) 3
fiber (3) 3
fibrillated cellulose (3) 3
finishing, dressing, tentering or stretching textile fabrics (3) 3
human necessities (3) 3
index medicus (3) 3
indexing scheme associated with sublasses of section d, relating to textiles (3) 3
indexing scheme associated with sublasses of sectiond, relating totextiles (3) 3
materials science, paper & wood (3) 3
mechanical finishing of yarns or ropes (3) 3
mechanical properties (3) 3
mikrofibrille (3) 3
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Journal of Statistical Physics, ISSN 0022-4715, 5/2010, Volume 139, Issue 3, pp. 518 - 535
Journal Article
ACS Applied Materials & Interfaces, ISSN 1944-8244, 06/2013, Volume 5, Issue 11, pp. 4640 - 4647
In this study, we present a rapid method to prepare robust, solvent-resistant, nanofibrillated cellulose (NFC) films that can be further surface-modified for... 
oxygen permeability | nanofibrillated cellulose | solvent resistance | barrier | wet strength | film | NANOPAPER STRUCTURES | MICROFIBRILLATED CELLULOSE | PULPS | HIGH-STRENGTH | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOSCIENCE & NANOTECHNOLOGY | COMPOSITES | PAPER | WEB-LIKE NETWORK
Journal Article
Information Processing Letters, ISSN 0020-0190, 2007, Volume 102, Issue 4, pp. 156 - 162
In this paper a discrete-time dynamic random graph process is studied that interleaves the birth of nodes and edges with the death of nodes. In this model, at... 
Web-like networks | Dynamic random graph modeling | Scale-free | Preferential node deletion | Power-law degree distribution | Interconnection networks | scale-free | COMPUTER SCIENCE, INFORMATION SYSTEMS | dynamic random graph modeling | interconnection networks | preferential node deletion | power-law degree distribution | GRAPHS
Journal Article
Composites Science and Technology, ISSN 0266-3538, 2008, Volume 68, Issue 9, pp. 2103 - 2106
The reinforcement of polylactic acid (PLA) using microfibrillated cellulose (MFC, mechanically fibrillated pulp, mostly consisting of nanofibers) is reported,... 
B. Thermo-mechanical properties | A. Nano composites | B. Stress–strain curves | A. Fibers | B. Stress-strain curves | fibers | thermo-mechanical properties | PLA | FIBRILLATED CELLULOSE | MATERIALS SCIENCE, COMPOSITES | COMPOSITES | MECHANICAL-PROPERTIES | nano composites | FIBER | NANOCOMPOSITES | WEB-LIKE NETWORK | stress-strain curves | BIOCOMPOSITES | Nanotechnology | Cellulose
Journal Article
Applied Physics A, ISSN 0947-8396, 11/2005, Volume 81, Issue 6, pp. 1109 - 1112
Journal Article
Journal Article
Polymer, ISSN 0032-3861, 06/2013, Volume 54, Issue 13, pp. 3417 - 3425
The effects of fillers on the crystal formation and crystalline structure of poly(lactic acid) (PLA) are unclear. In this study microfibrillated cellulose... 
PLA | Crystallization | MFC | POLYMER SCIENCE | CRYSTALLINITY | MICROFIBRILLATED CELLULOSE | MULTIPLE MELTING BEHAVIOR | MECHANICAL-PROPERTIES | POLYLACTIC ACID | FIBER | WEB-LIKE NETWORK | POLY(L-LACTIC ACID) | MORPHOLOGY | Analysis | Cellulose | Lactic acid | Differential scanning calorimetry | Scanning | Diffraction | Fillers | Crystals | Formations | Crystal structure
Journal Article
Carbohydrate Polymers, ISSN 0144-8617, 05/2018, Volume 187, pp. 133 - 139
•Cellulose nanofiber board (CNF-board) with high mechanical properties was fabricated.•No chemical additives or adhesives were used to make CNF-board.•A novel... 
Self-densification | Board | Cellulose nanofiber | Flexural strength | Dimensional recovery | BAGASSE | POLYMER SCIENCE | MICROFIBRILLATED CELLULOSE | CHEMISTRY, ORGANIC | IONIC LIQUID | COMPOSITES | DENSITY | WEB-LIKE NETWORK | PAPER PROPERTIES | NANOPAPER | NANOCOMPOSITE | CHEMISTRY, APPLIED
Journal Article
Journal Article
Journal of Thermal Analysis and Calorimetry, ISSN 1388-6150, 9/2013, Volume 113, Issue 3, pp. 1019 - 1025
Journal Article