INIS
cements
100%
performance
94%
phase change materials
88%
energy
83%
climates
77%
ashes
50%
mortars
50%
zones
49%
compression strength
48%
applications
47%
steels
46%
reviews
45%
prediction
38%
microstructure
37%
energy storage
35%
investigations
34%
mechanical properties
32%
energy consumption
32%
cities
31%
design
30%
values
29%
graphene
28%
corrosion
27%
assessments
27%
comparative evaluations
25%
evaluation
24%
data
24%
machine learning
23%
levels
23%
reduction
22%
volume
22%
durability
22%
production
21%
fly ash
21%
modeling
21%
surfaces
20%
water
20%
residential buildings
20%
solutions
19%
reinforced concrete
19%
energy efficiency
19%
economics
19%
strains
19%
simulation
18%
programming
18%
oxides
17%
bentonite
17%
damage
17%
hydration
17%
optimization
16%
Engineering
Phase Change Material
83%
Energy Engineering
60%
Compressive Strength
49%
Energy Conservation
38%
Test Result
36%
Thermal Energy Storage
35%
Elevated Temperature
32%
Microstructure
31%
Climate Zone
29%
Thermal Performance
28%
Lightweight Aggregate
25%
Cement Paste
23%
Residential Building
22%
Graphene
17%
Energy Efficiency
16%
Rice Husk Ash
16%
Metakaolin
15%
Cement Composite
15%
Lightweight Aggregate Concrete
15%
Graphene Oxide
14%
Mechanical Performance
14%
Energy Performance
14%
Melting Temperature
14%
Partial Replacement
13%
Concrete Filled Steel Tube
12%
Grinding (Machining)
12%
Cement Mortar
12%
Building Energy Performance
12%
Electrochemical Method
11%
Stabilizer
11%
Lightweight Concrete
11%
Defects
10%
Flexural Behavior
10%
Carbon Fibre Reinforced Polymer
10%
Bagasse Ash
10%
Experimental Investigation
10%
Building Envelope
10%
Coarse Aggregate
10%
Thermal Comfort
10%
Energy Simulation
9%
Ordinary Portland Cement
9%
Thermal Energy
9%
Climate Change
9%
Test Method
8%
Heat Release
8%
Pozzolanic Activity
8%
Maximum Temperature
8%
Ground Granulated Blast Furnace Slag
8%
Multistage
8%
Fine Aggregate
7%
Keyphrases
Compressive Strength
31%
Elevated Temperature
25%
Phase Change Material
23%
Mortar
21%
Mechanical Properties
20%
Metakaolin
14%
Fly Ash
13%
Rice Husk Ash
12%
Tropical Savanna Climate
11%
Graphene Oxide
10%
Lightweight Aggregate
10%
Form-stable Composite Phase Change Material
10%
Sensitivity Analysis
10%
Microstructure
10%
Climate Zones
9%
Cement Composites
8%
Normal Strength Concrete
8%
Hydration Properties
7%
Early Design Phases
7%
Building Energy Performance
7%
Cement Mortar
7%
Cement Paste
7%
Fourier Transform Infrared Spectroscopy (FT-IR)
7%
Interfacial Transition Zone
7%
PCM-integrated Buildings
7%
Building Integrated
7%
Concrete-filled Steel Tube
7%
Carbon Nanotubes
7%
Climate Zoning
7%
Lightweight Aggregate Concrete
7%
Electrochemical Techniques
7%
Lightweight Concrete
7%
Nano-encapsulated Phase Change Material (NEPCM)
7%
Blended Cement
7%
Corn Cob Ash
7%
Steel Reinforced Mortar
7%
Macro-encapsulated
7%
Degradation Mechanism
7%
Form-stable Composite
7%
Flexural Behavior
7%
Steel Corrosion
7%
Reinforced Concrete
7%
Ground Granulated Blast Furnace Slag (GGBFS)
7%
Concrete Thermal Energy Storage
7%
Mechanical Performance
6%
Melting Temperature
6%
Energy Demand
6%
Residential Buildings
6%
Energy Consumption Reduction
6%
Thermally Stable
6%