INIS
calcium
100%
cements
100%
calcium sulfates
100%
mortars
100%
aluminates
100%
comparative evaluations
50%
hydrates
50%
anhydrite
50%
hydration
37%
morphology
25%
dissolution
25%
performance
12%
values
12%
losses
12%
heat
12%
control
12%
increasing
12%
expansion
12%
mechanical properties
12%
shrinkage
12%
x-ray diffraction
12%
scanning electron microscopy
12%
thermal conduction
12%
compression strength
12%
flexural strength
12%
calorimeters
12%
Keyphrases
Calcium Sulfate
100%
Calcium Aluminate Cement
100%
Self-leveling Mortar
100%
Cement-based
100%
Anhydrite
50%
Dihydrate
50%
Hemihydrate
50%
Dissolution Rate
25%
Early Strength
25%
Ettringite
25%
Mechanical Properties
12%
X Ray Diffraction
12%
Compressive Strength
12%
Fast Dissolution
12%
Setting Time
12%
Morphological Evolution
12%
Ternary System
12%
Mortar
12%
Scanning Electron Microscope
12%
Flexural Strength
12%
Hydration Heat
12%
Hydration Products
12%
Product Evolution
12%
Compensatory Effect
12%
Heat Conduction Calorimeters
12%
Heat Evolution
12%
C3S Hydration
12%
Product Morphology
12%
Initial Flow
12%
Shrinkage-compensating
12%
Mortar Formulation
12%
Flow Value
12%
Engineering
Calcium Sulfate
100%
Calcium Aluminate
100%
Hemihydrate
33%
Dissolution Rate
16%
Ettringite
16%
Test Result
8%
Ray Diffraction
8%
Compressive Strength
8%
Setting Time
8%
Isothermal
8%
Ternary System
8%
Scanning Electron Microscope
8%
Calorimeter
8%
Hydration Product
8%
Material Science
Mechanical Strength
100%
Scanning Electron Microscopy
50%
X-Ray Diffraction
50%
Compressive Strength
50%