INIS
wood
100%
surfaces
90%
silver
75%
betula
68%
water
66%
color
51%
performance
50%
cellulose
50%
comparative evaluations
47%
compression
36%
spruces
35%
substrates
34%
wastes
31%
nitrification
27%
ponds
27%
stabilization
27%
sodium hydroxides
27%
recovery
27%
bonding
25%
mechanical properties
21%
physical properties
20%
phenol
20%
polyphenols
20%
oxidases
20%
concentration
19%
adhesives
17%
biomass
17%
resins
17%
monosaccharides
16%
carbon 20
15%
extraction
15%
raw materials
15%
solutions
14%
control
14%
formaldehyde
14%
lignin
14%
applications
14%
nitrogen
13%
spectrophotometry
13%
nanocomposites
13%
ethylenediaminetetraacetic acid
13%
bleaching
13%
modifications
13%
chemical properties
13%
stability
13%
chemical analysis
13%
films
13%
dispersions
13%
coatings
13%
peroxides
13%
Keyphrases
Silver Birch
72%
Birch
72%
Betula Pendula
54%
Chemical Characteristics
45%
Birch Veneer
45%
Spruce
39%
Plywood
36%
Xylem Sap
31%
Hydrothermal Treatment
31%
Waste Stabilization Ponds
27%
Nitrification
27%
Pond System
27%
Hydrothermally
27%
Treatment Effect
27%
Time-to-treatment
27%
Bond Performance
27%
Flexible Printed Electronics
27%
Sodium Hydroxide
27%
Mechanical Compression
25%
Xylem
25%
Mechanical Properties
23%
Free Monosaccharide
22%
Automated Bonding Evaluation System
22%
Electronic Applications
22%
Color Development
22%
Sodium Sulfite
22%
Soaking Temperature
22%
Bond Strength
21%
Nanocellulose
20%
Wood
20%
Bonding Quality
20%
Soaking Water
18%
Rotary
18%
Physical Properties
18%
Discoloration
18%
Polyphenol Oxidase
15%
Wood Veneer
14%
Lignin
14%
Organic Loading
13%
Water Concentration
13%
Epicatechin
13%
Seasonal Characteristics
13%
Surface Bonding
13%
Water Extract
13%
Peroxide Bleaching
13%
Bark
13%
Surface Modification
13%
Mechanoenzymatic
13%
Behavior Characteristics
13%
Betula Pendula Roth
13%