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Calcium chloride acceleration in ordinary Portland cement
Tapio Vehmas
*
, Anna Kronlöf
, Andrzej Cwirzen
*
Corresponding author for this work
VTT (former employee or external)
Luleå University of Technology
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
32
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Citations (Scopus)
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INIS
acceleration
100%
portland cement
100%
calcium chlorides
100%
fillers
50%
hydration
37%
modeling
25%
supersaturation
25%
thermodynamics
25%
calcium silicates
25%
hydrates
25%
water
12%
crystal growth
12%
nucleation
12%
limestone
12%
quartz
12%
calorimeters
12%
powders
12%
Engineering
Ordinary Portland Cement
100%
Synergistic Effect
66%
Calcium Silicate Hydrate
66%
Filler Material
66%
Supersaturation
66%
Test Result
33%
Calorimeter
33%
Portland Cement Hydration
33%
Silicon Dioxide
33%
Keyphrases
Ordinary Portland Cement
100%
Calcium Chloride
100%
Supersaturation
22%
Thermodynamic Modeling
22%
Synergistic Effect
22%
Calcium-silicate-hydrate (C-S-H)
22%
Acceleration Mechanism
22%
Filler Material
22%
Crystal Growth
11%
Calorimeters
11%
Nucleation Growth
11%
Early Hydration
11%
Portland Cement Hydration
11%
Induced Acceleration
11%
Limestone Powder
11%
Quartz Powder
11%
Acceleration Effect
11%
Acceleration Time
11%
Chloride Effect
11%
Inorganic Substances
11%
Water-soluble Inorganics
11%
Accelerated Hydration
11%
Material Science
Portland Cement
100%
Thermodynamics Modeling
66%
Silicate
66%
Supersaturation
66%
Cement Hydration
33%
Nucleation
33%
Crystal Growth
33%
Chemical Engineering
Calcium Chloride
100%
Calcium Silicate
25%