Engineering & Materials Science
Composite materials
100%
Fibers
76%
Bast fibers
61%
Flax
48%
Polymers
44%
Ultrahigh molecular weight polyethylenes
43%
Jute fibers
43%
Formaldehyde
39%
Tomography
38%
Laminates
37%
Cones
37%
Glass
31%
Polyesters
31%
Mechanical properties
29%
Wear of materials
29%
Melamine
28%
Aging of materials
27%
Natural fibers
25%
Tensile strength
23%
Water
22%
Moisture
20%
Erosion
19%
Characterization (materials science)
18%
Acetylation
16%
Seawater
16%
Hardness
15%
Starch
14%
Metal working
14%
Toughness
14%
Phenols
14%
Stiffness
14%
Silanes
13%
Fatigue of materials
13%
Friction materials
13%
Cutting fluids
13%
Impact strength
13%
Vegetable oils
12%
Thermosets
12%
Scanning electron microscopy
12%
Bending strength
12%
Toluene
12%
Degradation
12%
Compression molding
11%
Glass fibers
11%
Journal bearings
11%
Tensile properties
11%
Physical properties
11%
Emulsions
10%
Linings
10%
Shear strength
10%
Chemical Compounds
Composite Material
69%
Fiber
56%
Ultra High Molecular Weight Polyethylene
42%
Fiber-Reinforced Composite
40%
Reinforced Plastic
39%
Glass
34%
Wear
32%
Formaldehyde
27%
Polyester
25%
Melamine
21%
Wear Rate
20%
Bend Strength
18%
Tensile Strength
17%
Velocity
16%
Friction Material
15%
Machining
13%
Shear Strength
12%
Metal Matrix Composites
12%
Surface
11%
Autoclave
11%
Friction Coefficient
10%
Scanning Electron Microscopy
10%
Impact Strength
10%
Surface Roughness
10%
Sulfonic Acid
9%
Industry
9%
Heat Treatment
8%
Phenol
8%
Electron Particle
7%
Jet
7%
Tempering
6%
Application
6%
Permanganate
6%
Rate Constant
6%
Decomposition
6%
Silane
6%
Resistance
6%
Reduction
5%
Physics & Astronomy
hybrid composites
28%
composite materials
18%
hardeners
14%
melamine
14%
sulfonic acid
14%
basalt
14%
formaldehyde
12%
fibers
12%
linings
10%
toluene
10%
toughness
10%
molecular weight
9%
polyethylenes
8%
cones
8%
acetylation
8%
impact strength
8%
friction
8%
damage
8%
tomography
7%
hardness
7%
evaluation
7%
lay-up
6%
shear strength
6%
polymers
6%
characterization
5%
silanes
5%
