Material Science
Carbon Nanotubes
100%
Graphene
97%
Glass Fiber
62%
Graphene Oxide
54%
Surface (Surface Science)
51%
MXene
46%
Fatigue Behavior
33%
Film
29%
Fatigue of Materials
28%
Nanosheet
28%
Supercapacitors
26%
Titanium Carbide
25%
Ultimate Tensile Strength
25%
Density
24%
Reduced Graphene Oxide
24%
Composite Material
23%
Nanoparticle
22%
Scanning Electron Microscopy
21%
Carbon Fiber
21%
Flexural Strength
21%
Matrix Composite
21%
Electrical Conductivity
20%
Nanocomposite
20%
Polymer Composite
19%
Polymer Matrix
19%
Fiber-Reinforced Composite
18%
Electromagnetic Interference Shielding
18%
Nanotubes
17%
Polypropylene
16%
Titanium Dioxide
16%
Aerogel
16%
Elastic Moduli
16%
Tensile Loads
15%
Two-Dimensional Material
15%
Ceramic Matrix Composites
14%
Polystyrene
13%
Cyclic Loads
13%
Reinforced Plastic
12%
Capacitance
12%
Phase Composition
11%
Stem Cell
10%
Polymer Solar Cell
10%
Ceramic Composite
10%
Shaft
10%
Multiaxial Fatigue
10%
Chirality
10%
Fatigue Damage
10%
Fourier Transform Infrared Spectroscopy
10%
Nanowires
9%
Young's Modulus
9%
Engineering
Carbon Nanotubes
55%
Single-Walled Carbon Nanotube
48%
Graphene
45%
Ultimate Tensile Strength
38%
MXene
32%
Fatigue Behavior
32%
Fatigue Life
25%
Nanotubes
25%
Hybrid Composite
25%
Composite Material
25%
Graphene Oxide
20%
Bending Strength
19%
Fiber-Reinforced Composite
18%
Hip Prosthesis
18%
Energy Engineering
17%
Tensiles
16%
Conductive
16%
Infrastructure
15%
Two Dimensional
15%
Cyclic Loads
15%
Reflectance
15%
Elevated Temperature
15%
Nanosheet
14%
Polydimethylsiloxane
13%
Cyclic Loading
13%
Polymer Matrix
13%
Bamboo Fiber
13%
Life Prediction
12%
Composite Fiber
12%
Prosthesis
12%
Tensile Loads
12%
Reduced Graphene Oxide
11%
Mechanical Property
11%
Nanowire
11%
Room Temperature
11%
Porosity
11%
Tested Specimen
11%
Delamination
10%
Contact Dynamics
10%
Sensing Application
10%
Elastic Response
10%
Strength Degradation
10%
Mesenchymal Stem Cell
10%
Multiaxial Fatigue
10%
Electromagnetic Interference
10%
Long-Term Durability
10%
Modulus of Elasticity
10%
Young's Modulus
10%
Thin Films
9%
2D Material
9%