INIS
corrosion
100%
beams
67%
reinforced concrete
43%
slags
38%
durability
33%
performance
31%
steels
31%
portland cement
30%
fibers
28%
fly ash
28%
cements
26%
finite element method
25%
polypropylene
21%
sand
21%
reviews
20%
numerical analysis
19%
environment
16%
mechanical properties
16%
capacity
16%
binders
15%
prestressed concrete
15%
morphology
13%
water
13%
design
13%
flexural strength
13%
wastes
12%
evaluation
12%
cracking
12%
compression strength
12%
volume
11%
drying
11%
optimization
11%
losses
10%
cracks
10%
comparative evaluations
10%
blast furnaces
10%
efficiency
9%
compacting
9%
gypsum
9%
strains
9%
prediction
9%
silica
9%
sodium hydroxides
9%
units
9%
sulfates
9%
assessments
9%
surfaces
9%
limestone
8%
reduction
6%
failures
6%
Engineering
Steel Rebar
33%
Ordinary Portland Cement
28%
Activated Concrete
28%
Compressive Strength
24%
Compression Strength
24%
Pozzolana
19%
Finite Element Modeling
19%
Reinforced Concrete Beam
14%
Bond Strength
12%
Reinforcement Corrosion
12%
Monitoring Instrument
12%
Flexural Behavior
12%
Load Limits
12%
Bending Strength
12%
Corrosion
12%
Ground Granulated Blast Furnace Slag
10%
Concrete Structure
9%
Polypropylene Fibre-Reinforced Concrete
9%
Prestressed Concrete
9%
Structural Performance
9%
Aggressive Agent
9%
Surrounding Environment
9%
Arrester
9%
Pozzolanic Material
9%
Cement Concrete
9%
Durables
9%
Mesh Size
9%
Cohesive Surface
9%
Relational
9%
Mixing Design
9%
Stress-Strain Relations
9%
Slag Concrete
9%
Strand
9%
Concrete Mix
9%
Finite Element Analysis
9%
Reinforced Concrete
9%
Prestressing
9%
Silicon Dioxide
9%
Modulus of Elasticity
9%
Mangalore
9%
Masonry Unit
9%
Steel Slag Aggregate
9%
Induced Cracking
9%
Rebar Corrosion
8%
Concrete Cover
8%
Prestress
7%
Surface Crack
6%
Expansion Pressure
6%
Slag Aggregate
6%
Natural Resources
6%
Material Science
Corrosion
78%
Portland Cement
54%
Reinforced Concrete
32%
Polypropylene
26%
Steel Rebar
23%
Prestressed Concrete
15%
Phase Composition
14%
Compressive Strength
13%
Building Material
12%
Finite Element Methods
11%
Fiber Reinforced Concrete
9%
Self Compacting Concrete
9%
Elemental Analysis
9%
Carbon Dioxide
9%
Stress-Strain Relations
9%
Silica Sand
9%
Synthetic Fiber
9%
Scanning Electron Microscopy
9%
Finite Element Modeling
7%
Energy-Dispersive X-Ray Spectroscopy
6%
Ultimate Tensile Strength
6%
Surface Morphology
6%
Flexural Strength
5%
Corrosion Resistance
5%
