Engineering & Materials Science
Concretes
100%
Slags
83%
Concrete aggregates
61%
Steel fibers
57%
Geopolymer concrete
47%
Fly ash
42%
Curing
38%
Compressive strength
37%
Cements
34%
Sand
33%
Sodium hydroxide
29%
Carbonation
29%
Geopolymers
27%
Basalt
26%
Binders
24%
Fibers
23%
Concrete mixtures
22%
Mortar
22%
Glass fibers
22%
Sodium
21%
Microstructure
21%
Silicates
21%
Taguchi methods
21%
Durability
18%
Mechanical properties
18%
Tensile strength
17%
Civil engineering
17%
Reinforced concrete
17%
Characterization (materials science)
16%
Molar concentration
15%
Carbon
15%
Students
14%
Aluminosilicates
13%
Polymers
13%
Hydrates
13%
Bending strength
13%
Composite materials
12%
Limestone
12%
Ladles
11%
Seawater
11%
Self healing concrete
11%
Pavements
11%
Volume fraction
11%
Rebar
10%
Water
9%
Reaction products
9%
Macros
9%
Shear strength
9%
Fourier transform infrared spectroscopy
9%
Differential scanning calorimetry
8%
Chemical Compounds
Slag
56%
Curing
36%
Compression Strength
32%
Reinforced Plastic
23%
Microstructure
23%
Fiber
22%
Strength
18%
Binding Agent
13%
Tensile Strength
13%
Sodium Hydroxide
12%
Hydrate
11%
Sodium Silicate
10%
Shear
10%
Ladle
9%
Bend Strength
9%
Calcium(0)
8%
Ceramic
7%
Composite Material
7%
Sodium Atom
7%
Scanning Electron Microscopy
6%
Carbon Dioxide
6%
Hydroxide
6%
Mixture
6%
Environment
5%
Polymer Concrete
5%
Differential Scanning Calorimetry
5%
Gel
5%
Carbon Atom
5%
Abrasion
5%
Shear Strength
5%
Permeability
5%
Earth & Environmental Sciences
slag
26%
fiber
17%
dune
16%
fly ash
10%
steel
10%
mortar
9%
compressive strength
9%
sodium
9%
blast furnace
8%
replacement
7%
hydroxide
6%
cement (construction material)
6%
reinforced concrete
6%
eggshell
5%
basalt
5%
