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Rheological Model of Concrete Shrinkage
Chatarina Niken
, Elly Tjahjono
, F. X. Supartono
Department of Civil and Environment Engineering
Research output
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Contribution to journal
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Article
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peer-review
1
Citation (Scopus)
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Engineering
Experimental Result
100%
Relative Humidity
100%
High-Performance Concrete
100%
Strain Gage
100%
Compacting Concrete
100%
Strength Concrete
100%
Hydration Product
100%
Column Strength
100%
Compression Strength
100%
Compressive Strength
100%
Keyphrases
Rheological Model
100%
Concrete Shrinkage
100%
Indonesia
33%
Pore Size
33%
Pore numbers
33%
Humidity
33%
Compressive Strength
33%
Pore Distribution
33%
High Performance Concrete
33%
Concrete Cylinders
33%
Kelvin-Voigt
33%
Number Distribution
33%
Vibrating Wire Strain Gauge
33%
High-strength Concrete Columns
33%
Self-compacting Concrete
33%
Column Strength
33%
Material Science
Compressive Strength
100%
Self Compacting Concrete
100%
High Performance Concrete
100%