Material Science
Aerogels
24%
Aluminum
24%
Amorphous Material
18%
Carbon Fiber
49%
Carbon Nanotube
32%
Composite Films
18%
Composite Laminate
20%
Deformation Mechanism
36%
Delamination
22%
Elastic Moduli
22%
Electron Transfer
55%
Erbium
21%
Fiber-Reinforced Composite
16%
Finite Element Method
32%
Fracture Toughness
16%
Gadolinium
27%
Graphene
57%
High Entropy Alloys
24%
Homogenization
15%
Hot Electron
18%
Hybrid Solar Cells
86%
Impact Loads
18%
Mechanical Metamaterials
24%
Mechanical Property
24%
Mechanical Strength
25%
Metamaterial
20%
Microstructural Evolution
32%
Molybdate
24%
MXene
16%
Nanocomposites
27%
Nanocrystalline
16%
Nanocrystalline Material
17%
Nanoparticle
100%
Nanosphere
79%
Photovoltaic Performance
26%
Poly Methyl Methacrylate
16%
Polymer Nanocomposites
27%
Polyurethane
16%
Quantum Dot
16%
Silicon Dioxide
31%
Sintering
40%
Sodium
16%
Solar Cell
56%
Strain Rate
21%
Titanium Carbide
20%
Titanium Dioxide
74%
Volume Fraction
21%
Yield Stress
19%
Young's Modulus
20%
Ytterbium
26%
Engineering
Accurate Prediction
10%
Aerogels
16%
Carbon Aerogel
10%
Carbon Nanotube
16%
Coal Bed Methane
16%
Computer Simulation
76%
Constitutive Model
10%
Contact Force
39%
Continuum Model
12%
Cylindrical Shell
18%
Deformation Mechanism
16%
Delamination
10%
Demonstrates
24%
Device Performance
10%
Element Method
10%
Element Model
10%
Energy Dissipation
9%
Energy Engineering
40%
Epoxy Composite
16%
Equivalence Ratio
10%
Experimental Result
12%
Face-Centered Cubic
11%
Finite Element Method
10%
Graphene
32%
Hertz
18%
Heterojunctions
10%
High-Entropy Alloys
16%
Hybrid Solar Cells
16%
Impact Dynamics
12%
Impact Resistance
11%
Impact Response
12%
Impact Toughness
9%
Impact Velocity
17%
Interaction Force
32%
Internals
12%
Micromechanical Modeling
10%
Microstructural Evolution
16%
MXene
16%
Nanoparticle
61%
Nanoscale
20%
Nanosphere
54%
Photovoltaic Performance
10%
Power Conversion Efficiency
15%
Representative Volume Element
10%
Simulation Result
13%
Sintering
24%
Solar Cell
16%
Strain Rate
10%
Yield Stress
10%
Young's Modulus
13%