Engineering & Materials Science
Fibers
100%
Composite materials
81%
Reinforcement
71%
Hinges
63%
Concrete aggregates
49%
Cements
46%
Concretes
41%
Reinforced concrete
39%
Engineered cementitious composite
37%
Cyclic loads
28%
Ultra-high performance concrete
28%
Mortar
21%
Steel
20%
Plastics
18%
Stiffness
18%
Computer simulation
16%
Materials properties
16%
Plasticity
15%
Corrosion
15%
Rebar
15%
Mechanics
13%
Cracks
13%
Steel corrosion
13%
Fiber reinforced concrete
13%
Carbon steel
12%
Precast concrete
11%
Structural members
11%
Numerical models
11%
Monte Carlo methods
10%
Calibration
10%
Compaction
9%
Concrete construction
9%
Plasmas
9%
Shear stress
9%
Damage tolerance
8%
Physics
8%
Numerical analysis
8%
Mechanical properties
8%
Degradation
8%
Geometry
8%
Strain hardening
8%
Crushing
7%
Energy dissipation
7%
Polymers
7%
Bending strength
7%
Ductility
6%
Fracture energy
6%
Toughness
5%
Tensile strength
5%
Earthquakes
5%
Mathematics
High Performance
39%
Fiber-reinforced Composite
30%
Simulation
21%
Reinforcement
21%
Composite
17%
Slip
17%
Fiber
17%
Composite Beams
17%
Cracking
14%
Flexure
14%
Mortar
14%
Susceptibility
12%
Finite Element Simulation
9%
Reinforced Concrete
7%
Predict
6%
Experiment
5%
Chemical Compounds
Simulation
37%
Composite Material
35%
Strain
21%
Strength
18%
Compression Strength
15%
Calculation Algorithm
14%
Corrosion
14%
Plastic Property
11%
Monte Carlo Method
10%
Fiber
10%
Tensile Strength
9%
Heterogeneity
9%
Mixture
6%
Shape
6%
Dioxygen
6%
Tension
5%
