Engineering & Materials Science
Composite materials
100%
Fibers
70%
Composite structures
53%
Micromechanics
48%
Collagen
40%
Laminated composites
34%
Tissue
23%
Stress analysis
22%
Hemodynamics
21%
Constitutive models
21%
Nonlinear analysis
20%
Fluid structure interaction
18%
Laminates
18%
Crack propagation
15%
Geometry
15%
Hydrogels
13%
Neural networks
12%
Microstructure
12%
Shear stress
11%
Mechanical properties
10%
Delamination
10%
Ultrahigh molecular weight polyethylenes
9%
Fatigue damage
9%
Creep
9%
Infrared radiation
8%
Markov chains
8%
Glass
8%
Stiffness
8%
Cracks
8%
Finite element method
7%
Fiber reinforced plastics
7%
Compressive strength
7%
Stress-strain curves
7%
Testing
7%
Stents
7%
Elastin
7%
Elastic moduli
7%
Nanoindentation
7%
Fatigue of materials
6%
Alginate
6%
Large scale systems
6%
Bone
6%
Calibration
6%
Ballistics
6%
Volume fraction
6%
Biomimetics
5%
Subroutines
5%
Continuum damage mechanics
5%
Numerical analysis
5%
Hyaluronic acid
5%
Chemistry
Composite Material
81%
Fiber
49%
Strain
33%
Shear
24%
Collagen
21%
Filament
19%
Tension
18%
Delamination
13%
Valve
12%
Plate Like Crystal
12%
Fiber-Reinforced Composite
11%
Displacement
10%
Simulation
10%
Hydrogel
10%
Microstructure
10%
Creep
10%
Compression Strength
9%
Mechanics
9%
Ultra High Molecular Weight Polyethylene
8%
Volume
8%
Young's Modulus
7%
Crack Propagation
7%
Strain Energy
6%
Alginate
6%
Fracture Toughness
6%
Thermoelectricity
6%
Hexagonal Space Group
6%
Poisson Ratio
6%
Force
6%
Plastic Property
5%
Reinforced Plastic
5%
Application
5%
Surface
5%
Mathematics
Fidelity
40%
Micromechanics
30%
Cell
28%
Damage
23%
Composite
20%
Composite Materials
20%
Laminated Composites
13%
Formulation
13%
Fiber
10%
Nonlinear Model
8%
Nonlinear Analysis
8%
Modeling
8%
Finite Strain
8%
Multiscale Analysis
7%
Framework
7%
Bone
7%
Collagen
6%
Composite Structures
6%
Microcalcifications
5%
Unit
5%
Infrared Thermography
5%
Fatigue Damage
5%
Model
5%
Three-dimensional
5%
Finite Element
5%
Constitutive Model
5%