Engineering & Materials Science
Carbon fiber reinforced plastics
100%
Composite materials
62%
Fibers
59%
Polymers
33%
Debonding
32%
Laminates
27%
Computer simulation
22%
Tensile strength
20%
Resins
20%
Polyaniline
19%
Plastic laminates
18%
Graphene oxide
18%
Temperature
17%
Glass fibers
16%
Strain rate
16%
Creep
16%
Finite element method
14%
Molecular dynamics
14%
Carbon
14%
Constitutive equations
14%
Plastics
12%
Mechanical properties
10%
Mirrors
10%
Electric Conductivity
10%
Entropy
10%
Durability
10%
Interfacial energy
10%
Stress concentration
9%
Continuum damage mechanics
9%
Epoxy resins
9%
X rays
9%
Fiber reinforced materials
9%
Moisture
9%
Hot Temperature
8%
Dimensional stability
8%
Heating
8%
Shear strength
7%
Thermal stress
7%
Stress analysis
7%
Composite films
6%
Failure modes
6%
Residual stresses
6%
Macros
6%
Plastic deformation
6%
Aging of materials
5%
Correlation methods
5%
Chemical Compounds
Reinforced Plastic
77%
Fiber
54%
Carbon Fiber
48%
Composite Material
48%
Strength
44%
Simulation
32%
Strain
32%
Laminated Plastic
21%
Creep
21%
Tensile Strength
20%
Carbon Atom
12%
Glass
12%
Graphene Oxide
11%
Time
11%
Mechanics
10%
Entropy
9%
Shear Strength
9%
Residual Stress
9%
Plastic Deformation
9%
Electrical Conductivity
8%
Graphene
7%
Epoxy Resin
7%
Molecular Dynamics
7%
Interfacial Energy
6%
Fiber-Reinforced Composite
6%
Energy
6%
Environment
5%
Anisotropy
5%
Shear
5%
Energy Balance
5%
Monte Carlo Method
5%
Thermal Conductivity
5%
Shape
5%
