Engineering & Materials Science
Ceramic matrix composites
95%
Carbon fibers
83%
Chemical vapor infiltration
82%
Oxidation
73%
Ablation
73%
Temperature
68%
Oxidation resistance
58%
Rare earths
53%
Oxides
48%
Composite materials
47%
Barium titanate
34%
Bending strength
31%
Doping (additives)
30%
Sintering
27%
Silicon carbide
27%
Fibers
26%
Structural properties
23%
Coatings
23%
Angle of attack
22%
Merging
21%
Metals
21%
Cerium oxide
20%
Toughness
20%
Microwaves
19%
Tensile strength
17%
Thermooxidation
14%
Microstructure
14%
Molten materials
14%
Crystal structure
14%
Impregnation
13%
Pyrolysis
13%
Hypersonic vehicles
13%
Shear stress
13%
Zirconia
12%
Nanocrystalline powders
12%
Tensile testing
12%
Hot Temperature
12%
Carbon
12%
Oxygen
11%
Melting point
11%
Thermal stress
10%
Yttrium oxide
10%
Polymers
10%
Mechanical properties
10%
Silicates
10%
Elongation
10%
Residual stresses
9%
Heat treatment
9%
Porosity
9%
Silica
9%
Chemistry
Carbon Fiber
100%
Ablation
84%
Ceramic
83%
Composite Material
74%
Oxidation Reaction
47%
Surface Temperature
42%
Bending Strength
40%
Polymer Infiltration and Pyrolysis
39%
Torch
35%
Sintering
33%
Lanthanoid Atom
32%
Silicon Carbide
32%
Strength
32%
Pyrolytic Carbon
29%
Resistance
28%
Shear Stress
26%
Microwave
23%
Fiber
22%
Impregnation
22%
Microstructure
22%
Oxide
20%
Nozzle
19%
Doping Material
19%
Tensile Strength
18%
Metal Oxide
18%
Environment
17%
Application
16%
Pressure
14%
Coating Agent
14%
Shape
14%
Thermal Shock
14%
Fiber-Reinforced Composite
13%
Thermooxidation
13%
Tetragonal Space Group
12%
Porosity
12%
Densification
11%
Jet
11%
Surface Damage
11%
Drop
9%
Amount
9%
Surface
8%
Cutting Tool
7%
Elemental Analysis
7%
Nuclear Fuel
7%
Compound IV
6%
Cerium
6%
Carbon Atom
6%
Time
6%
Ambient Reaction Temperature
6%
Cubic Space Group
6%