Engineering & Materials Science
Nonwoven fabrics
100%
Ballistics
65%
Fibers
62%
Laminates
43%
Energy absorption
37%
Composite materials
36%
Needles
27%
Strain rate
26%
Constitutive models
20%
Crystallinity
17%
Durability
15%
Carbon black
15%
Straightening
14%
Tomography
14%
X rays
13%
Ultrahigh molecular weight polyethylenes
13%
Polymer matrix composites
13%
Ductility
12%
Printing
12%
Carbon
12%
Scaffolds
11%
Speckle
11%
Tensile testing
11%
Energy dissipation
11%
Felts
10%
Characterization (materials science)
10%
Computer simulation
9%
Acids
8%
Dynamic response
8%
Mechanical properties
8%
Glass
7%
Inspection
7%
Wave propagation
7%
Polymers
7%
Finite element method
6%
Metals
6%
Stiffness
6%
Preforming
5%
Steel
5%
Anisotropy
5%
Continuum damage mechanics
5%
Delamination
5%
Failure modes
5%
Testing
5%
Electric potential
5%
Mathematics
Ballistics
33%
Fiber
30%
Digital Image Correlation
20%
Speckle
16%
Analytical Modeling
16%
Durability
15%
Composite Plates
14%
Energy Absorption
14%
Experimental Analysis
14%
Multiscale Model
13%
Multiscale Analysis
13%
Energy Dissipation
12%
Influence
12%
Carbon
12%
Thin Plate
11%
Alignment
11%
Voltage
11%
Mechanical Behavior
10%
Constitutive Model
10%
Entanglement
9%
Performance
9%
Failure Mechanism
9%
Scenarios
9%
Numerical Simulation
8%
Heating
7%
Shape Memory Polymer
6%
Laminates
6%
Model
6%
Modeling
6%
Anisotropy
6%
Predictive Modeling
5%
X-ray Diffraction
5%
Microstructure
5%
Cyclic Loading
5%
Connectivity
5%
Chemical Compounds
Fiber
48%
Composite Material
29%
Strain
21%
Simulation
20%
Joule Effect
17%
Energy
17%
Dissipation
16%
Velocity
14%
Delamination
13%
Carbon Black
11%
Strength
10%
Crystallinity
10%
Plate Like Crystal
9%
Shear
9%
Anisotropy
7%
Voltage
7%
Mechanical Wave
6%
Wave
6%
Ductility
5%
Nozzle
5%