Engineering & Materials Science
Wood
100%
Veneers
30%
Fibers
26%
Moisture
25%
Hemp
23%
Composite materials
21%
Cellulose
18%
Densification
15%
Temperature
14%
Hemp fibers
12%
Formaldehyde
9%
Polyesters
9%
Sorption
8%
Heat treatment
8%
Coatings
8%
Atmospheric humidity
8%
Peeling
8%
Mechanical properties
8%
Sustainable development
8%
Phenols
8%
Crack propagation
7%
Wooden buildings
7%
Lathes
7%
Bast fibers
7%
Adhesives
7%
Surface properties
7%
Volume fraction
7%
Hardness
6%
Plastics
6%
Raman scattering
6%
Photoelasticity
6%
Polyols
6%
Cells
6%
Hot Temperature
6%
Ionic liquids
6%
Hardwoods
6%
Microcracking
6%
Adsorption
6%
Climate change
6%
Lignin
6%
Phenolic resins
6%
Recovery
5%
Peroxides
5%
Bleaching
5%
Wood products
5%
Alcohols
5%
Resin transfer molding
5%
Bamboo
5%
Fiber reinforced materials
5%
Micromechanics
5%
Earth & Environmental Sciences
soaking
20%
circular economy
20%
timber
19%
adhesive
11%
material
11%
buffering
9%
formaldehyde
9%
temperature
9%
shear strength
8%
moisture
8%
micromorphology
8%
phenol
8%
building component
8%
life cycle
8%
public procurement
8%
evaluation
7%
recycling
7%
sustainability
7%
hardness
6%
product
6%
measuring
6%
demolition
5%
green building
5%
potential flow
5%
bamboo
5%
residential building
5%
thermal treatment
5%
Chemical Compounds
Birch Reduction
30%
Fiber
29%
Composite Material
20%
Densification
15%
Surface
13%
Crack Propagation
12%
Modification
10%
Humidity
8%
Fiber-Reinforced Composite
8%
Photoelasticity
7%
Polyester
7%
Furfuryl Alcohol
7%
Tension
6%
Strength
6%
Lignin
5%
Cladding
5%
Weathering
5%
Filament
5%
Fracture Toughness
5%