Mathematics
Nanofibers
100%
Fracture Toughness
97%
Carbon Fiber
89%
Composite Materials
67%
Damage
64%
Electrospinning
52%
Nanoparticles
40%
Composite
36%
Characterization
29%
Fiber
23%
Nanomaterials
23%
Bagging
22%
Silica
21%
Energy Release Rate
20%
Cantilever Beam
20%
Consolidation
18%
Reinforcement
17%
Strain Energy
17%
Substrate
15%
Baseline
14%
Vacuum
14%
Testing
9%
Performance
8%
Physics & Astronomy
fiber composites
63%
carbon fibers
59%
fracture strength
54%
damage
39%
composite materials
33%
characterization
30%
strain energy release rate
26%
nanoparticles
24%
polyacrylonitrile
24%
matrix materials
22%
vacuum systems
21%
cantilever beams
21%
consolidation
20%
fibers
20%
reinforcement
19%
resins
18%
silicon dioxide
14%
matrices
10%
performance
8%
Engineering & Materials Science
Nanofibers
71%
Carbon fibers
51%
Fracture toughness
49%
Characterization (materials science)
48%
Electrospinning
37%
Composite materials
31%
Silica nanoparticles
20%
Polyacrylonitriles
20%
Fibers
18%
Nanostructured materials
17%
Energy release rate
16%
Cantilever beams
15%
Strain energy
14%
Consolidation
14%
Nanoparticles
13%
Resins
12%
Vacuum
12%
Reinforcement
10%
Substrates
9%
Testing
7%
Chemical Compounds
Fracture Toughness
61%
Carbon Fiber
50%
Nanofiber
47%
Composite Material
27%
Cantilever Beam
22%
Fiber
17%
Strain Energy
17%
Percent Reduction
16%
Nanoparticle
13%
Vacuum
10%
Nanomaterial
8%