INIS
bones
100%
porous materials
81%
magnesium
72%
corrosion
72%
volume
58%
strains
52%
defects
51%
correlations
49%
solutions
45%
alloys
40%
time resolution
36%
biological materials
36%
stem cells
36%
deformation
36%
computed tomography
36%
growth factors
36%
cell differentiation
36%
loading
36%
in vitro
36%
performance
36%
substrates
36%
regeneration
36%
synchrotrons
36%
evaluation
36%
compression
30%
mechanical tests
27%
synchrotron radiation
27%
coatings
25%
trabecular bone
25%
losses
21%
accumulation
18%
fibers
18%
resolution
18%
collagen
18%
stiffness
18%
mechanics
16%
magnesium alloys
16%
corrosion products
15%
tissues
15%
failures
12%
design
12%
computerized tomography
12%
mechanical properties
12%
salts
12%
information
12%
cartilage
12%
hydrogels
12%
deposition
12%
sodium chlorides
9%
phosphates
9%
Engineering
Porosity
84%
Corrosion Rate
54%
Mesenchymal Stem Cell
36%
Multiscale
36%
Stem Cell Differentiation
36%
Cyclic Loading
36%
Corrosion Product
36%
Mechanical Testing
36%
Scaffold Design
30%
High Resolution
30%
Phase Composition
27%
Az31 Alloy
27%
Local Strain
24%
Mechanical Property
24%
Material Volume
18%
Critical Failure
18%
Mechanical Load
18%
Principal Strain
18%
Fiber Scaffold
18%
Disruptions
18%
Material Loss
18%
Layer Coating
18%
Hydrogel
18%
Degradation Rate
18%
Chondrogenic Differentiation
18%
Collagen Type
18%
Bone Substitutes
18%
Young's Modulus
18%
Yield Point
12%
Porous Structure
12%
Temporal Resolution
12%
Material Level
12%
Bridging
12%
Spatial Resolution
12%
Micromechanics
12%
Deformation Behavior
12%
Function Relationship
12%
Strain Field
12%
Progression
12%
Biological Tissue
12%
Plastic Deformation
12%
Structure Function
12%
Stress Relaxation
12%
Damage Initiation
12%
Corrosive Environment
9%
Engineering Scaffold
9%
Overexpression
9%
Alginate
9%
Tissue Regeneration
9%
Corrosion Protection
9%
Material Science
Corrosion
72%
Magnesium
72%
Digital Volume Correlation
49%
Morphology
45%
Biomaterial
36%
Magnesium Alloys
36%
In Vitro Corrosion
36%
Tomography
36%
Mechanical Testing
27%
Magnesium Alloy
16%
Mechanical Property
12%
X-Ray Computed Tomography
12%
Phase Composition
12%
Stress Relaxation
9%
Plastic Deformation
9%
Micromechanics
9%
Young's Modulus
9%
Volume Fraction
9%
Electrical Breakdown
7%
Scratch Testing
7%