Material Science
Aluminum Alloys
100%
Carbon Nanotube
75%
Ultimate Tensile Strength
57%
Nanocomposite
50%
Silver
50%
Metal Matrix Composite
50%
Epoxy
50%
Composite Material
50%
Plating
50%
Fatigue Crack Growth
50%
Al2O3
50%
Surface Plasmon Resonance
50%
Heat Treatment
40%
Oxide Film
33%
Mechanical Strength
32%
Nanocomposites
31%
Aluminium Oxide Nanoparticle
30%
Bond Strength (Materials)
30%
Scanning Electron Microscopy
20%
Particle-Reinforcement
20%
Stir Casting
20%
Composite Coating
20%
Electrical Resistance
18%
Fatigue Crack
16%
Finite Element Method
12%
Theoretical Modeling
12%
Engineering Material
12%
Young's Modulus
12%
Elastic Moduli
12%
Impact Loads
12%
X-Ray Diffraction
10%
Corrosion Resistance
10%
Surface Active Agent
10%
Wettability
10%
Intermetallics
10%
Aluminum
10%
Matrix Composite
10%
Volume Fraction
10%
Aluminum Foil
10%
Coefficient of Friction
10%
Yield Stress
10%
Self Lubricating Composite
10%
Energy-Dispersive X-Ray Spectroscopy
10%
Solid Lubrication
10%
Electroplating
10%
Impact Testing
6%
Electrical Conductivity
6%
Glass-Fiber Reinforced Plastic
6%
Engineering
Multi-Walled Carbon Nanotube
100%
Nanocomposite
85%
Composite Material
58%
Composite Coating
50%
Metal Matrix Composite
50%
Matrix Material
50%
Ultimate Tensile Strength
50%
Surface Plasmon
50%
Carbon Nanotube
41%
Young's Modulus
33%
Engineering
33%
Coefficient of Friction
25%
Directional
25%
Test Machine
25%
Tensile Test
25%
Microstructure
25%
Electronic Scanning
25%
Parameter Set
25%
Surfactant
25%
Solid Lubrication
25%
Impact Energy
18%
Tensiles
16%
Industrial Applications
16%
Finite Element Method
16%
Good Correlation
16%
Sensing Capability
16%
Resin Matrix
16%
Applied Strain
16%
Experimental Result
16%
Oil Field
16%
Ultrasonics
16%
Interfacial Bonding
16%
Epoxy Composite
16%
Impact Loads
12%
Reflectance
12%
Thickness Strain
8%
Response Time
8%
Oil Leakage
8%
Polymer Substrate
8%
Low Power Consumption
8%
Conductive
8%
Impact Test
6%
Electrical Conductivity
6%
Composite Fiber
6%
Epoxy Glass
6%
Epoxy Matrix
6%