Keyphrases
Activation Energy
9%
Amorphous Alloy
28%
B2 Phase
21%
Biocompatibility
32%
Biomedical Applications
28%
Biomedical Implants
34%
Bone Cell Growth
5%
Bulk Metallic Glass
62%
Bulk Metallic Glass Composite
28%
Calcium Deposition
12%
Compressive Strength
9%
Corrosion Resistance
5%
DSC Analysis
9%
Element-free
23%
Exothermic Peak
9%
Exothermic Reaction
9%
Extracellular Calcium
12%
Forming Process
5%
Free Volume
9%
Glass Foam
42%
Glass Forming Ability
11%
Glass Transition Point
9%
Glass Transition Temperature
19%
Glass-ceramic Scaffold
28%
Good Mechanical Properties
5%
High Biocompatibility
37%
Hot Pressing
10%
Hot-pressing Process
8%
Human Body
9%
Human Bone
15%
Implant Placement
28%
In Vitro Test
5%
Incubation Time
9%
Isothermal Annealing
9%
Mechanical Properties
40%
Metallic Glass
15%
Metallic Glass Composite
14%
Nb-Sn
5%
Non-cytotoxic
9%
Open Cell
42%
Physical Characteristics
9%
Plastic Strain
7%
Pore Size
15%
Porosity
24%
Sn-Co
5%
Stress Shielding
8%
Structural Relaxation
9%
Supercooled Liquid Region
28%
Thermoplastic Forming
5%
Ti Alloy
8%
Ti-6Al-4V Alloy
5%
Ti-based Bulk Metallic Glass
14%
TiZr
91%
Toxic Elements
23%
Transformation Reactions
9%
Transformation-induced Plasticity
28%
Vol%
10%
Volume Reduction
9%
Young's Modulus
15%
ZrCu
28%
Engineering
Activation Energy
9%
Amorphous Matrix
14%
Based Amorphous Alloy
28%
Biomedical Application
28%
Bulk Metallic Glass
71%
Cooling Rate
28%
Copper Mold
28%
Corrosion Resistance
7%
Exothermic Peak
9%
Exothermic Reaction
9%
Fracture Strength
14%
Free Volume
9%
Homogeneous Distribution
14%
Hot Pressing
14%
Induced Plasticity
28%
Isothermal Annealing
9%
Liquid Region
28%
Plastic Strain
28%
Plasticity Effect
28%
Porosity
14%
Precipitate Size
14%
Rod
14%
Size of Particle
14%
Solidification Process
14%
Thermoforming
7%
Ti-6al-4v Alloy
7%
Transition Point
9%
Young's Modulus
14%
Material Science
Activation Energy
9%
Amorphous Alloys
28%
Amorphous Metal
14%
Annealing
9%
Biocompatibility
37%
Bulk Metallic Glass
100%
Cell Growth
5%
Compressive Strength
9%
Corrosion
5%
Corrosion Resistance
5%
Differential Scanning Calorimetry
9%
Fracture Toughness
7%
Free Volume
9%
Glass Transition
9%
Glass Transition Temperature
19%
Hot Pressing
18%
Metallic Glass
38%
Nucleation
7%
Pore Size
15%
Solidification
14%
Structural Relaxation
9%
Thermoplastics
5%
Ti-6Al-4V
8%
Young's Modulus
17%