Keyphrases
Lignin
100%
Interlayer Adhesion
100%
3D Printability
100%
Lignin Composites
100%
Deposition Layer
40%
Rubber
40%
Functional Groups
20%
Adhesion
20%
Adhesion Strength
20%
Additive Manufacturing
20%
Mechanical Performance
20%
Acrylonitrile Butadiene Styrene
20%
Molecular Mobility
20%
Hydroxyl
20%
Carbon Fiber
20%
Petroleum-based
20%
Interfacial Diffusion
20%
Thermo
20%
Chemical Cross-linking
20%
Nitriles
20%
Material Performance
20%
Renewable Feedstock
20%
Printed Structures
20%
Printability
20%
Styrene-butadiene Rubber
20%
Biorefinery
20%
Bridging Role
20%
Green Composites
20%
Waste Streams
20%
Melt Flow
20%
Hydrogen Bond Structure
20%
Acrylonitrile Butadiene Styrene Polymer
20%
Phase Synthesis
20%
Additive Method
20%
Discontinuous Carbon Fiber
20%
Lignin Waste
20%
Thermal Crosslinking
20%
Rubber Interface
20%
Low Melt Viscosity
20%
Engineering
Interlayer
100%
Acrylonitrile Butadiene Styrene
100%
Bridging
50%
Functional Group
50%
Mechanical Performance
50%
Biorefineries
50%
Bonded Structure
50%
Printed Structure
50%
Synthesis Phase
50%
Material Performance
50%
Renewables
50%
Molecular Mobility
50%
Renewable Feedstock
50%
Melt Flow
50%
Rubber Phase
50%
Additive Manufacturing
50%
Melt Viscosity
50%
Butadiene Rubber
50%
Chemical Crosslinking
50%
Interfacial Diffusion
50%
Material Science
Lignin
100%
Composite Material
100%
Carbon Fiber
28%
Acrylonitrile Butadiene Styrene
28%
Three Dimensional Printing
14%
Bond Strength (Materials)
14%
Feedstock
14%
Thermoplastics
14%
Chemical Engineering
Butadiene
100%
Styrene
66%
Carbon Fiber
66%
Functional Group
33%
Thermoplastics
33%