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Cement and Concrete Research, ISSN 0008-8846, 11/2017, Volume 101, pp. 131 - 143
Journal Article
by Ma, Y and Ye, G
Cement and Concrete Research, ISSN 0008-8846, 02/2015, Volume 68, pp. 75 - 82
Journal Article
Construction & building materials, ISSN 0950-0618, 2017, Volume 149, pp. 62 - 75
Journal Article
Construction & building materials, ISSN 0950-0618, 2018, Volume 159, pp. 155 - 163
Journal Article
Journal of Materials in Civil Engineering, ISSN 0899-1561, 07/2015, Volume 27, Issue 7
Journal Article
Cement and concrete research, ISSN 0008-8846, 2012, Volume 42, Issue 2, pp. 377 - 383
Alkali-activated slag (AAS) paste was analyzed using small-angle neutron scattering (SANS). The scattering response indicates that the microstructure consists... 
(D) Alkali Activated Cement | (D) Granulated Blast- Furnace Slag | (B) Calcium–Silicate–Hydrate (C–S–H) | (B) Calcium-Silicate-Hydrate (C-S-H) | GEL PHASE | BLAST-FURNACE SLAG | AUTOGENOUS SHRINKAGE | SURFACE-AREA | MATERIALS SCIENCE, MULTIDISCIPLINARY | NEUTRON-SCATTERING | MORTARS | Granulated Blast- Furnace Slag | Alkali Activated Cement | TRICALCIUM SILICATE | DRYING SHRINKAGE | CONSTRUCTION & BUILDING TECHNOLOGY | Calcium-Silicate-Hydrate (C-S-H) | PORTLAND-CEMENT PASTES | CALCIUM-SILICATE-HYDRATE | Anabolic steroids | Lime | Specific gravity | Analysis | Nanotechnology | Cement | Pastes | Spectroscopy | Atomic absorption analysis | Portland cements | Cements | Nanostructure | Shrinkage | Density | SLAGS | OXYGEN COMPOUNDS | SPECIFIC SURFACE AREA | CURING | HYDRATES | NEUTRON DIFFRACTION | HYDRATION | CEMENTS | ALKALINE EARTH METALS | DENSITY | ELEMENTS | SILICATES | SURFACE AREA | BUILDING MATERIALS | SURFACE PROPERTIES | METALS | CALCIUM | PHYSICAL PROPERTIES | SMALL ANGLE SCATTERING | ALUMINIUM COMPOUNDS | DIFFRACTION | MICROSTRUCTURE | SCATTERING | CALCIUM SILICATES | SILICON COMPOUNDS | NANOSTRUCTURES | MATERIALS SCIENCE | COHERENT SCATTERING | SOLVATION | ALKALINE EARTH METAL COMPOUNDS | PORTLAND CEMENT | CHALCOGENIDES | TEMPERATURE RANGE | SHRINKAGE | CALCIUM OXIDES | OXIDES | ALUMINIUM OXIDES | TEMPERATURE RANGE 0273-0400 K | CALCIUM COMPOUNDS | MATERIALS | SILICON OXIDES
Journal Article
Cement and Concrete Research, ISSN 0008-8846, 07/2017, Volume 97, pp. 107 - 114
The term “Time-zero”, i.e., the time for the start of autogenous shrinkage measurement, is usually used for estimating the cracking potential of structural components... 
High (ultra-high) performance cement paste | time-zero | Numerical simulation | Internal relative humidity | Autogenous shrinkage | "time-zero" | CONSTRUCTION & BUILDING TECHNOLOGY | MATERIALS SCIENCE, MULTIDISCIPLINARY | DEFORMATION | Cement | Numerical analysis
Journal Article
Structural Concrete, ISSN 1464-4177, 02/2017, Volume 18, Issue 1, pp. 92 - 103
The paper deals with shrinkage of large concrete specimens. The segments of walls were cast with thicknesses of 200 mm, 400 mm and 800 mm... 
shrinkage of concrete | autogenous shrinkage | relative humidity | drying shrinkage | shrinkage models | cylinders | size effect | wall segments | CEMENT PASTES | AUTOGENOUS DEFORMATIONS | ENGINEERING, CIVIL | CONSTRUCTION & BUILDING TECHNOLOGY | CREEP | Analysis | Concrete | Relative humidity | Concretes | Strain gages | Shrinkage | Wire | Walls | Cylinders | Drying
Journal Article
Structural Concrete, ISSN 1464-4177, 12/2018, Volume 19, Issue 6, pp. 1771 - 1781
...), and linear autogenous shrinkage tests were performed on both mortar and concrete mixtures. Furthermore, the heat of hydration test was only made for mortar mixtures... 
compressive strength | restrained shrinkage | heat of hydration | expanded perlite aggregate | linear autogenous shrinkage | ULTRASONIC PULSE VELOCITY | ALKALI-SILICA | ENGINEERING, CIVIL | CONSTRUCTION & BUILDING TECHNOLOGY | LIGHTWEIGHT AGGREGATE | CONCRETE | Concrete | Concretes | Hydration | Heat of hydration | Compressive strength | Shrinkage | Mortars (material) | Perlite
Journal Article
Construction & building materials, ISSN 0950-0618, 2016, Volume 127, pp. 43 - 48
•The amount of fine pores in UHPC can highly affect the autogenous shrinkage.•A strong correlation between the autogenous shrinkage and the porosity of UHPC was established... 
UHPC | Porosity | Cementitious materials | Autogenous shrinkage | DURABILITY | ENGINEERING, CIVIL | CONSTRUCTION & BUILDING TECHNOLOGY | MATERIALS SCIENCE, MULTIDISCIPLINARY | SILICA FUME | RATIO | FLY-ASH | Mechanical properties | Concrete | Permeability | Analysis | Cement
Journal Article