INIS
prediction
100%
cements
100%
slags
100%
performance
100%
fly ash
100%
microstructure
75%
blast furnaces
75%
design
50%
mixtures
50%
curing
50%
recommendations
50%
engineering
50%
emission
25%
chemistry
25%
outdoors
25%
production
25%
levels
25%
physical properties
25%
applications
25%
testing
25%
communities
25%
computer codes
25%
carbon dioxide
25%
chemical properties
25%
by-products
25%
binders
25%
solutions
25%
length
25%
mechanical properties
25%
service life
25%
pore structure
25%
indoors
25%
Engineering
Performance Prediction
100%
Mechanisms
100%
Carbonation
100%
Term Performance
100%
Activated Material
83%
Carbonation Resistance
66%
Microstructure
50%
Ground Granulated Blast Furnace Slag
50%
Exposure Condition
33%
Partial Replacement
33%
Activated Concrete
33%
Development
33%
Design
33%
Engineering
33%
Structural Application
16%
Concrete Mixture
16%
Assemblage
16%
Models
16%
Accelerated Carbonation
16%
Pore Solution
16%
Limited Number
16%
Service Life
16%
By-Product
16%
Full Replacement
16%
Mechanical Properties
16%
General Approach
16%
Alkali Activation
16%
Concrete Production
16%
Testing
16%
Combined Effect
16%
Building Sector
16%
Binders
16%
Length Scale
16%
Mixture
16%
Material Science
Materials
100%
Cement
57%
Microstructure
28%
Concrete
28%
Concrete Mixture
14%
Mixture
14%
Binder
14%
Solution Chemistry
14%
Microstructure Characterization
14%
Byproducts
14%
Carbon Dioxide
14%
Pore Structure
14%
Keyphrases
Long-term Performance Prediction
100%
Partial Replacement of Cement
40%
Physical-chemical Properties
20%
Material Mixture
20%
Pore Solution Chemistry
20%
Assemblage Structure
20%
Outdoor-to-indoor
20%