Keyphrases
FeMn
100%
Bone Substitutes
100%
Extrusion-based 3D Printing
100%
Osteogenic
100%
Akermanite
100%
Biodegradation Pathway
66%
Composite Scaffold
50%
Fe-based
50%
Trabecular Bone
33%
Bone Substitution
33%
In Situ Biodegradation
33%
Bone Implants
33%
Vol%
33%
Mechanical Properties
33%
Osteogenic Differentiation
16%
In Vivo Research
16%
Powder Mixture
16%
Biodegradation
16%
Material Capacity
16%
Unmet Medical Need
16%
Adhesion
16%
Debinding
16%
Porous Composites
16%
Cytocompatible
16%
Extracellular Matrix
16%
3D Printing
16%
Interconnected Porosity
16%
Multi-material
16%
Bioactivity
16%
Runt-related Transcription Factor 2 (Runx2)
16%
Biomaterials
16%
Osteopontin
16%
Additive Technologies
16%
Preosteoblast
16%
Exceptional Performance
16%
Yield Strength
16%
Bone Regeneration
16%
INIS
3d printing
100%
extrusion
100%
porous materials
100%
bones
100%
paramagnetism
100%
biodegradation
85%
implants
42%
range
42%
in vitro
42%
matrices
28%
nmr imaging
28%
in vivo
28%
trabecular bone
28%
mechanical properties
28%
mixtures
14%
adhesion
14%
manufacturing
14%
capacity
14%
powders
14%
values
14%
sintering
14%
biological materials
14%
regeneration
14%
yield strength
14%
performance
14%
proliferation
14%
inks
14%
additives
14%
porosity
14%
Material Science
Three Dimensional Printing
100%
Composite Material
100%
Extrusion
100%
Biodegradation
75%
Magnetic Resonance Imaging
25%
Materials
12%
Mixture
12%
Yield Stress
12%
Biomaterial
12%
Sintering
12%
Porosity
12%
Adhesion
12%
Powder
12%
Ink
12%