INIS
mixtures
100%
silica
88%
fly ash
78%
slags
69%
evaluation
55%
powders
50%
mortars
50%
performance
48%
wastes
45%
construction
45%
compression strength
44%
sulfates
39%
reactivity
39%
blast furnaces
36%
cements
34%
fumes
32%
expansion
32%
glass
31%
sand
30%
energy storage
28%
oxygen
28%
furnaces
28%
stabilization
28%
applications
27%
curing
26%
soils
26%
mechanical properties
25%
piles
25%
thermal conductivity
23%
ashes
23%
water
23%
foundations
22%
roads
22%
fibers
22%
fluidized-bed combustion
21%
solutions
20%
design
19%
surfaces
19%
air
18%
thermal properties
18%
portland cement
18%
energy
17%
laboratories
17%
porosity
17%
comparative evaluations
17%
durability
15%
physical properties
15%
asphalts
14%
kazakhstan
13%
investigations
12%
Engineering
Compressive Strength
50%
Test Result
43%
Silica Fume
41%
Aerated Concrete
37%
Ground Granulated Blast Furnace Slag
36%
Alkali Silica Reaction
33%
Test Method
31%
Thermal Conductivity
24%
Road
24%
Sulfate Attack
23%
Basic Oxygen Furnace
23%
Furnace Slag
23%
Concrete Mixture
23%
Energy Storage
19%
Base Course
18%
Pile Foundations
17%
Activation Energy
17%
Mixing Design
16%
Supplementary Cementitious Material
16%
Ordinary Portland Cement
15%
Fluidized Bed Combustion
15%
Porosity
14%
Response Surface Method
14%
Geopolymer
14%
Binders
13%
Pozzolanic Material
12%
Field Condition
12%
Portland Cement
12%
Strength Development
11%
Test Solution
11%
Test Procedure
11%
Test Condition
10%
Slag Aggregate
10%
Alkalinity
10%
Test Period
10%
Compressed Air
9%
Structural Response
9%
Thaw Resistance
9%
Cementitious System
9%
Thermal Performance
9%
Circulating Fluidized Bed Combustion
9%
Frost Resistance
9%
Renewable Energy Storage
9%
Asphalt Concrete
9%
Temperature Distribution
9%
Diaphragm
9%
Test Bar
9%
Steel Fiber
8%
Stabilizer
8%
Field Performance
8%
Keyphrases
Alkali-silica Reaction
35%
Ground Granulated Blast Furnace Slag (GGBFS)
24%
Fly Ash
21%
Reactive Powder Concrete
18%
Compressive Strength
18%
Silica Fume
16%
ASTM C1260
16%
Class F Fly Ash
16%
Mortar Mixtures
15%
Response Surface Methodology
14%
Storage Bin
14%
Basic Oxygen Furnace
14%
Ordinary Portland Cement
12%
Aerated Concrete
11%
Energy Storage
10%
Thermal Properties
10%
Concrete Mix
10%
Activation Energy
10%
Thermal Conductivity
9%
Dilatometer Method
9%
Circulating Fluidized Bed Combustion Ash
9%
Renewable Energy Storage
9%
Road Base Course
9%
Geopolymer Mortar
9%
Cementitious Mixtures
9%
Waste Glass Sand
8%
Class C Fly Ash
8%
Strength Development
7%
High Sulfate
7%
Foundation System
7%
River Sand
7%
Fluidized Bed Combustion Fly Ash
7%
Cement Mixture
6%
Compressed Air
6%
Supplementary Cementitious Materials
6%
Porosity
6%
Non-autoclaved Aerated Concrete
5%
Accelerated Mortar Bar Test
5%
Flexible Base
5%
Flue Gas Desulfurization
5%
Pozzolanic Materials
5%
Road Base Stabilisation
5%
Water-binder Ratio
5%
Reinforced Concrete Foundation
5%
Freeze-thaw Cycles
5%
NaOH Solution
5%
Performance-based
5%
Dilatometer
5%