Keyphrases
Ionic Liquid
100%
Wood Plastic Composites
100%
Fiber Surface
100%
Surface Dissolution
100%
Wood Material
50%
Wood
50%
Fiber Orientation
50%
Buffer Solution
25%
Tensile Strength
25%
Concept Base
25%
Tensile Properties
25%
Cellulosic Materials
25%
Densification
25%
High Cost
25%
Cellulose Materials
25%
Structural Materials
25%
Delignification
25%
Engineering Structures
25%
Delignified
25%
1-Ethyl-3-methylimidazolium Acetate
25%
Partial Ground
25%
High-performance Materials
25%
Engineering Application
25%
Polymer Composites
25%
Material Concepts
25%
Additive-free
25%
Sodium Chlorite
25%
Treated Wood
25%
Adverse Environmental Factors
25%
Delignification Process
25%
Acetate Buffer
25%
Porous Wood
25%
Biomimetic Composites
25%
Strength Improvement
25%
Advanced Engineering
25%
Unidirectional Fiber
25%
Complex Manufacturing Process
25%
Heat-activated
25%
Nature-based Materials
25%
Fused Fiber
25%
High Mechanical Performance
25%
Wood Template
25%
Cost-based
25%
Native Wood
25%
INIS
wood
100%
fibers
100%
surfaces
100%
ionic liquids
100%
dissolution
100%
composite materials
100%
performance
28%
cost
28%
acetates
28%
orientation
28%
delignification
28%
solutions
14%
comparative evaluations
14%
engineering
14%
applications
14%
buffers
14%
polymers
14%
water
14%
cellulose
14%
tensile strength
14%
weight
14%
compacts
14%
additives
14%
alloys
14%
gain
14%
heat
14%
manufacturing
14%
porous materials
14%
steels
14%
tensile properties
14%
sodium
14%
environmental impacts
14%
biomimetics
14%
structural materials
14%
chlorites
14%
Material Science
Composite Material
100%
Ionic Liquid
100%
Fiber Reinforced Material
50%
Surface (Surface Science)
50%
Building Material
25%
Ultimate Tensile Strength
25%
Sodium
25%
Buffer Solution
25%
Wood
25%
Tensile Property
25%