Engineering & Materials Science
Fluidization
80%
Adhesion
53%
Metal-Organic Frameworks
47%
Hydrogen
46%
Liquids
44%
Polyetherimides
44%
Mesh generation
42%
Cracks
41%
Contact angle
39%
Magnetic fluids
39%
Superhydrophobicity
39%
Sand
39%
Microspheres
38%
Bone
37%
Excavators
37%
Membranes
36%
Fluidized beds
35%
Jet fuel
35%
Taylor series
35%
Wetting
35%
Scaffolds
34%
Actuators
33%
Alternative fuels
33%
Waste heat
32%
Surface active agents
31%
Electric motors
31%
Elastomers
31%
Microfluidics
31%
Shape optimization
30%
Energy balance
30%
Speed control
30%
Low density polyethylenes
30%
Working fluids
29%
Alumina
28%
Pneumatics
28%
Splines
28%
Multilayers
28%
Muscle
27%
Wood
26%
Plasmas
26%
Biomass
26%
Computational fluid dynamics
26%
Buckling
25%
Magnetic fields
25%
Toluene
25%
Finite element method
25%
Crack propagation
25%
Brittle fracture
24%
Gases
24%
Velocity measurement
24%
Temperature
23%
Capacitors
23%
Gibbs free energy
22%
Image processing
22%
Hydraulics
22%
Molecular dynamics
21%
Machine learning
21%
Experiments
20%
Topology
19%
Fluid Power
19%
Aluminum oxide
18%
Hydrides
18%
Strain energy
18%
Containers
18%
Interfacial energy
18%
Carbon capture
17%
Electric machinery
17%
Rankine cycle
17%
Geometry
17%
Human robot interaction
16%
Numerical models
16%
Global warming
16%
Surface tension
16%
Refrigeration
15%
Drag
15%
Conversion efficiency
15%
Anisotropy
15%
Atoms
15%
Polydispersity
15%
Energy conservation
14%
Atomic layer deposition
14%
Energy efficiency
14%
Multilayer films
14%
Robust control
14%
Air conditioning
14%
Partial differential equations
14%
Nozzles
14%
Hybrid systems
14%
Adsorption
14%
Environmental impact
13%
Composite films
13%
Pyrolysis
13%
Polyethylene terephthalates
12%
Pressure effects
12%
Hydrocarbons
12%
Numerical methods
12%
Catalysts
12%
Balloons
12%
Boundary conditions
11%
Electric breakdown
10%
Mathematics
Phase Field
100%
Anisotropic Material
59%
Phase Field Model
58%
Crack
55%
Meshless Method
48%
Wrinkling
47%
Lattice Boltzmann
46%
Microfluidics
46%
Brittle Materials
46%
Hyperelasticity
43%
Crack Propagation
43%
Surfactant
42%
Point Cloud
41%
Mesh Generation
41%
Path Following
40%
Droplet
38%
Unstructured Mesh
36%
Buckling
34%
Brittle Fracture
33%
Finite Element Analysis
33%
Injection
32%
Taylor series
32%
B-spline
30%
Membrane
29%
Mesh
27%
Higher Order
26%
Formulation
25%
Damage
24%
Incompressibility
22%
Triangle Mesh
22%
Generator
21%
Adaptive Refinement
20%
Adaptive Mesh Refinement
19%
Surface Energy
19%
Zigzag
19%
Simulation
18%
Strain Energy
16%
Anisotropy
16%
Insertion
16%
Squeezing
16%
Plane Stress
15%
Mixed Formulation
14%
Dynamic Algorithms
14%
Basis Functions
14%
Trefftz Method
14%
Standards
13%
Compression
13%
Dirichlet Boundary Conditions
12%
Fourth Order
12%
Triangle
12%
Numerical Modeling
12%
Shell Element
11%
Finite Element
11%
Experiment
10%
Energy Release Rate
10%
Anisotropic Elasticity
10%
Asymptotic Methods
10%
Partial differential equation
10%
Switch
10%
Numerical Procedure
10%
Variational Model
10%
Model
9%
Imperfections
9%
Benchmark
9%
Hyperelastic Material
8%
Microstructure
8%
Mixed Finite Elements
8%
Manufacturing
8%
Inf-sup Condition
7%
Crack Tip
7%
Vary
7%
Linear Interpolation
7%
Approximation
7%
Finite Deformation
7%
Discretization
7%
Numerical Methods
7%
Container
7%
Bubble
6%
Euler-Lagrange Equations
6%
Curve
5%
Requirements
5%
Dependent
5%
Configuration
5%
Influence
5%
Numerical Simulation
5%
Analytical Solution
5%
Stabilization
5%
Decrease
5%
Physics & Astronomy
adhesion
49%
shoes
43%
waste heat
40%
nonuniform magnetic fields
39%
wrinkling
39%
organic liquids
38%
mass balance
36%
Taylor series
36%
ferrofluids
35%
curved surfaces
34%
buckling
31%
elastomers
31%
solid surfaces
30%
cleavage
30%
bones
28%
surfactants
27%
curvature
26%
toluene
26%
topology
25%
optimization
22%
membranes
21%
field strength
19%
hydrogen
17%
Trefftz method
17%
interfacial tension
15%
meshfree methods
14%
damage
12%
compressing
12%
upstream
11%
magnetic fields
10%
stiffness
10%
curves
9%
liquids
9%
asymmetry
9%
microbalances
8%
temperature
8%
energy
8%
impact velocity
8%
femur
8%
switches
7%
thermal energy
7%
water
7%
hydrogen fuels
7%
scaling laws
7%
exergy
7%
radii
7%
inertia
7%
liquid surfaces
6%
pulling
6%
cantilever beams
6%
thermodynamics
6%
polyethylene terephthalate
6%
detachment
6%
wettability
6%
glycols
6%
surface reactions
6%
microelectronics
5%
condensers
5%
kinetic energy
5%
pressure distribution
5%
Gibbs free energy
5%
printing
5%
ethylene
5%
velocity distribution
5%
energy conservation
5%
stress distribution
5%
deposits
5%
flat surfaces
5%
scaling
5%