Engineering & Materials Science
Alloy steel
13%
Aluminum oxide
22%
Atomic layer deposition
45%
Birefringence
12%
Butadiene
34%
Carbon fibers
19%
Characterization (materials science)
32%
Chassis
18%
Composite materials
18%
Copolymers
17%
Corrosion
18%
Crack initiation
29%
Crack propagation
100%
Cracks
99%
Defects
13%
Degradation
25%
Fatigue crack propagation
48%
Fatigue of materials
57%
Fillers
12%
Finite element method
14%
Foams
11%
Fracture toughness
11%
Geometry
13%
Growth kinetics
14%
High density polyethylenes
76%
Hybrid materials
17%
Injection molding
23%
Liquid crystal polymers
12%
Mechanical properties
20%
Multilayer films
12%
Pipe
46%
Plasmas
15%
Plastic pipe
18%
Plastics
11%
Polycarbonates
46%
Polyethylenes
80%
Polymers
24%
Polyolefins
11%
Polypropylenes
33%
Rubber
23%
Scratch resistance
23%
Stress corrosion cracking
35%
Styrene
28%
Talc
18%
Temperature
15%
Tensile properties
12%
Thermoplastics
34%
Thermotropic liquid crystals
17%
Thin films
17%
Weathering
15%
Chemical Compounds
Acrylonitrile
8%
Application
13%
Atomic Layer Epitaxy
24%
Birefringence
9%
Brittle Fracture
10%
Butadiene
8%
Carbon Fiber
8%
Chemical Depolymerization
19%
Coating Agent
10%
Composite Material
9%
Computer Program
6%
Cooling
7%
Crack Initiation
43%
Crack Propagation
64%
Creep
8%
Energy
7%
Environment
7%
Environmental Stress Cracking
14%
Fatigue Limit
17%
Fatigue Strength
16%
Fiber
9%
Filler
11%
Foam
7%
Force
7%
Fracture Mechanics
17%
Fracture Toughness
16%
Glass
6%
Internal Pressure
6%
Liquid Crystal
7%
Liquid Film
25%
Molecular Cluster
8%
Multilayer
11%
Plate Like Crystal
17%
Poly(propylene)
22%
Polyimide Macromolecule
7%
Pressure
10%
Quality Control
7%
Reduction
9%
Residual Stress
15%
Resistance
23%
Shape
12%
Simulation
19%
Stress Corrosion Cracking
25%
Sulfide
6%
Surface
22%
Talc
16%
Tension
18%
Thermal Aging
10%
Time
16%
Yield Point
6%
Physics & Astronomy
aluminum
6%
aluminum oxides
6%
atomic layer epitaxy
22%
characterization
9%
crack closure
6%
crack propagation
7%
cracks
27%
degradation
6%
gas pipes
6%
injection molding
5%
life (durability)
5%
mechanical properties
11%
polycarbonates
9%
polyethylenes
26%
polyimides
8%
polymers
5%
polymethyl methacrylate
8%
steels
9%
stress corrosion
5%
stress corrosion cracking
6%
surface cracks
10%
thin films
8%
