Engineering & Materials Science
Finite element method
100%
Molecular dynamics
45%
Microstructure
45%
X rays
44%
Geometry
42%
Heterojunctions
40%
Cracks
39%
Synchrotrons
38%
Graphene
36%
Defects
36%
Tomography
32%
Composite materials
31%
X ray diffraction
30%
Lattice mismatch
28%
Microplastic
26%
Edge dislocations
26%
Ultrasonic propagation
25%
Nickel-Phosphorus
24%
Molecular modeling
23%
Density functional theory
23%
Students
23%
Thin films
22%
Elastomers
21%
Diffraction
21%
Computer simulation
20%
Continuum mechanics
20%
Nanotubes
19%
Polymer matrix
19%
Adsorption
19%
Energy release rate
18%
Aluminum alloys
18%
Constitutive equations
16%
Polyethylenes
16%
Intermetallics
16%
Materials properties
16%
Quantum theory
15%
Impurities
15%
Explosions
14%
Coatings
14%
Stress relaxation
14%
Semiconductor materials
13%
Tensors
12%
Copper
12%
Aging of materials
12%
Free energy
12%
Wave propagation
12%
Aluminum
12%
Particle reinforced composites
11%
Temperature
11%
Substrates
11%
Mathematics
Extended Finite Element Method
77%
Dislocation
53%
Graphene
48%
Modeling
43%
Crack
33%
Continuum
32%
Defects
31%
Zigzag
30%
Ultrasonic Wave
28%
Microstructure
26%
Shell Element
25%
Shell Structure
23%
Strong Discontinuity
23%
Complex Geometry
23%
Finite Element Modeling
23%
Density Functional Theory
22%
Nanotubes
21%
Attenuation
19%
Thin Films
19%
Continuum Mechanics
19%
Shell
18%
Explosion
18%
Constitutive Equation
17%
Wave Propagation
16%
Quantum Mechanics
16%
Polymers
16%
Mesh
15%
Cohesive Zone Model
14%
Finite Element
14%
Thin Shells
14%
Discontinuity
13%
Composite
13%
Dynamic Fracture
13%
Finite Element Method
12%
Debonding
12%
Mass Lumping
12%
Degree of freedom
11%
Interaction
11%
Higher Order
11%
Adhesion
10%
Nanoindentation
9%
Material Properties
9%
Energy
9%
Energy Function
9%
Coarse-graining
8%
Model
8%
Least Squares
8%
Demonstrate
8%
Arbitrary
8%
Velocity Field
8%
Physics & Astronomy
finite element method
46%
molecular dynamics
29%
polyethylenes
28%
Hugoniot equation of state
26%
simulation
22%
J integral
21%
shock
21%
density functional theory
21%
wave propagation
19%
geometry
19%
predictions
18%
x ray diffraction
18%
ripples
16%
ultrasonic radiation
16%
constitutive equations
16%
particulates
15%
microstructure
15%
continuums
15%
harmonics
15%
nanotubes
14%
composite materials
14%
polymers
13%
wave attenuation
13%
perovskites
13%
graphene
12%
x rays
12%
quantum dots
12%
attenuation coefficients
11%
estimators
11%
temperature
11%
formulations
10%
energy
10%
ground state
10%
inclusions
10%
automation
9%
estimates
9%
elastic properties
8%
parameterization
8%
stress tensors
8%
matrices
8%
stress distribution
8%
free energy
8%
stress relaxation
8%
lumping
8%
diffraction
8%
thin films
8%
attenuation
8%
S waves
7%
autocorrelation
7%
