Engineering & Materials Science
Concretes
100%
Cements
64%
Slags
41%
Reinforcement
40%
Rebar
34%
Reinforced concrete
33%
Ultra-high performance concrete
33%
Ions
33%
Cyclic loads
33%
Compaction
32%
Steel
32%
Cracks
30%
Corrosion
30%
Drying
29%
Fatigue of materials
29%
Wire rope
28%
Geopolymers
27%
Polymer concrete
27%
Fly ash
25%
Limestone
24%
Polymers
22%
Wetting
21%
Durability
20%
Piles
20%
Water
19%
Ductility
18%
Expansion joints
17%
Powders
17%
Welds
16%
Mechanical properties
15%
Fibers
15%
Transport properties
15%
Concrete mixtures
14%
Composite materials
12%
Bending moments
10%
Crack propagation
10%
Compressive strength
10%
Computer simulation
9%
Experiments
9%
Hydration
9%
Repair
9%
Concrete construction
8%
Thermal load
8%
Thermal effects
8%
Curing
8%
Tendons
8%
Shearing
7%
Flanges
7%
Beams and girders
7%
Corrosion rate
7%
Chemical Compounds
Chloride
30%
Transport Property
26%
Reinforced Plastic
25%
Corrosion
24%
Strength
23%
Permeability
22%
Slag
21%
Compression Strength
16%
Ductility
14%
Environment
14%
Block Like Crystal
14%
Application
12%
Weathering
12%
Tension
12%
Friction Coefficient
11%
Surface Roughness
10%
Composite Material
10%
Shear
9%
Corrosion Resistance
9%
Diffusion
9%
Fume
9%
Poly(propylene)
8%
Mixture
7%
Diffusion Coefficient
7%
Glass
7%
Simulation
6%
Strain
6%
Calcium(0)
5%