Material Science
Magnesium
100%
Silicate
100%
Corrosion Resistance
100%
Calcium
100%
Particle
100%
Composite Material
63%
Body Fluid
18%
Metal Matrix Composite
9%
Microstructure
9%
Spark Plasma Sintering
9%
Osteoblast
9%
Compressive Strength
9%
Bioceramic
9%
Implant Material
9%
Surface
9%
INIS
magnesium
100%
corrosion resistance
100%
particles
100%
calcium silicates
100%
matrices
36%
simulation
18%
body fluids
18%
surfaces
9%
implants
9%
apatites
9%
sintering
9%
microstructure
9%
weight
9%
plasma
9%
metals
9%
interactions
9%
layers
9%
comparative evaluations
9%
phosphates
9%
osteoblasts
9%
compression strength
9%
mechanical properties
9%
Keyphrases
Silicate Particles
100%
Calcium Silicate
100%
Silicate Composites
27%
Simulated Body Fluid
18%
Reinforcement Phase
18%
Biodegradable Metal Matrix Composites
9%
MC3T3-E1 Cells
9%
Silicate Content
9%
Structural Compactness
9%
Ionic Product
9%
Enhanced Corrosion Resistance
9%
Biodegradable Implant Materials
9%
Hydroxyapatite Layer
9%
Inherent Drawbacks
9%
Alkaline Phosphate
9%