Keywords: خاکستر پرواز (D); Microstructure (B); Compressive strength (C); Fly ash (D); Metakaolin (D); Chemically bonded ceramics (D);
مقالات ISI خاکستر پرواز (D) (ترجمه نشده)
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Keywords: خاکستر پرواز (D); Concrete (E); Aging (C); Basic creep (C); Compression; Tensile properties (C); Fly ash (D);
Keywords: خاکستر پرواز (D); Metakaolin (D); Calcined smectite clay; Fly ash (D); Blended cement (D); Workability (A);
Keywords: خاکستر پرواز (D); Calcium sulfoaluminate cement; Compressive strength (C); Fly ash (D); Hydration (A); Thermodynamic calculations (B);
Keywords: خاکستر پرواز (D); Alkali-silica reaction (C); Fly ash (D); Pessimum; Alkalis (D); Modeling (E);
Keywords: خاکستر پرواز (D); Alkali activated cement (D); Granulated blast-furnace slag (D); Fly ash (D); Temperature (A)
Keywords: خاکستر پرواز (D); Alkali-aggregate reaction (C); Expansion (C); Fly ash (D); Modeling (E)
Keywords: خاکستر پرواز (D); Alkali-activated cement (D); Fly ash (D); Metakaolin (D); Compressive strength (C); Durability (C)
Keywords: خاکستر پرواز (D); Reaction (A); Amorphous Material (B); Microstructure (B); X-Ray Diffraction (B); Fly Ash (D)
Keywords: خاکستر پرواز (D); Alkali activated (D); Fly ash (D); Shrinkage (C); Pore size distribution (B)
Keywords: خاکستر پرواز (D); Shrinkage (C); Cement paste (D); Fly ash (D); Granulated blast-furnace slag (D); Polymers (D);
Keywords: خاکستر پرواز (D); Fly ash (D); Granulated blast-furnace slag (D); Metakaolin (D); Pozzolan (D); Silica fume (D)
Keywords: خاکستر پرواز (D); Microstructure (B); SEM (B); Fly ash (D); Granulated blast furnace slag (D); Chemically Bonded Ceramics (D);
Keywords: خاکستر پرواز (D); Sulfate attack (C); Bound chlorides (D); Stability (C); Fly ash (D); Ground granulated blast -furnace slag (D)
Keywords: خاکستر پرواز (D); Portland cement (D); Fly ash (D); Slag; Alkali-activated cement (D); Admixtures (D)
Keywords: خاکستر پرواز (D); Rheology (A); Kinetics (A); Expansion (C); Fly ash (D); Metakaolin (D)
Keywords: خاکستر پرواز (D); E; Ettringite; A; Anhydrite; Y; Ye'elimite; L; Gehlenite; Q; Quartz; S; Stratlingite; G; Gypsum; M; Mullite; Sulfoaluminate (D); Ettringite (D); Fly ash (D); Sulfate (D); Hydration (A);
Keywords: خاکستر پرواز (D); Aggregate (D); Fly ash (D); Shrinkage (C); Image analysis (B); Pore size distribution (B)
Discussion of the paper “Characterisation of magnesium potassium phosphate cement blended with fly ash and ground granulated blast furnace slag” by L.J. Gardner et al.
Keywords: خاکستر پرواز (D); Microstructure (B); SEM (B); Fly ash (D); Granulated blast furnace slag (D); Chemically bonded ceramics (D);
Response to the discussion by Hongyan Ma and Ying Li of the paper “Characterization of magnesium potassium phosphate cement blended with fly ash and ground granulated blast furnace slag”
Keywords: خاکستر پرواز (D); Microstructure (B); SEM (B); Fly ash (D); Granulated blast furnace slag (D); Chemically bonded ceramics (D);
Pozzolanic reaction of fly ash modified by fluidized bed reactor-vapor deposition
Keywords: خاکستر پرواز (D); Fly ash (D); Hydration (A); Dispersion (A); Blended cement (D); Fluidized bed reactor-vapor deposition (FBR-VD);
Fly ash as an assemblage of model Ca–Mg–Na-aluminosilicate glasses
Keywords: خاکستر پرواز (D); Reaction (A); EDX (B); Glass (B); Image analysis (B); Fly ash (D)
Impact of accelerated carbonation on OPC cement paste blended with fly ash
Keywords: خاکستر پرواز (D); Carbonation (C); Calcium-silicate-hydrate (C-S-H) (B); Fly ash (D); Microstructure (B); Portland cement (D)
Co-existence of aluminosilicate and calcium silicate gel characterized through selective dissolution and FTIR spectral subtraction
Keywords: خاکستر پرواز (D); Alkali activated cement (D); Fly Ash (D); Granulated Blast-Furnace Slag (D); Calcium-Silicate-Hydrate (C-S-H) (B); Spectroscopy (B)
Effective properties of a fly ash geopolymer: Synergistic application of X-ray synchrotron tomography, nanoindentation, and homogenization models
Keywords: خاکستر پرواز (D); Alkali activated cement (D); Fly ash (D); Backscattered electron imaging (B); Micromechanics (C); X-ray tomography
A new quantification method based on SEM-EDS to assess fly ash composition and study the reaction of its individual components in hydrating cement paste
Keywords: خاکستر پرواز (D); Characterization (B); EDX (B); Image analysis (B); Blended cement (D); Fly ash (D)
The influence of fly ash on the hydration of OPC within the first 44Â h-A quantitative in situ XRD and heat flow calorimetry study
Keywords: خاکستر پرواز (D); Early hydration; Portland cement (D); Fly ash (D); Calorimetry (A); X-ray diffraction (B);
Fly ash-based geopolymers: The relationship between composition, pore structure and efflorescence
Keywords: خاکستر پرواز (D); Alkali activated cement (D); Fly ash (D); Carbonation (C); Durability (C); Pore size distribution (B)
Accelerated carbonation of concrete with high content of mineral additions: Effect of interactions between hydration and drying
Keywords: خاکستر پرواز (D); Fly ash (D); Carbonation (C); Hydration (A); Drying (A); Granulated Blast-Furnace Slag (D)
The use of electrical impedance spectroscopy for monitoring the hydration products of Portland cement mortars with high percentage of pozzolans
Keywords: خاکستر پرواز (D); Electrical properties (C); Pozzolan (D); Fly ash (D); Metakaolin (D)
Role of slag in microstructural development and hardening of fly ash-slag geopolymer
Keywords: خاکستر پرواز (D); Microstructure (B); Fly ash (D); Granulated blast-furnace slag (D); Acceleration (A)
The rheological properties of ternary binders containing Portland cement, limestone, and metakaolin or fly ash
Keywords: خاکستر پرواز (D); Rheology (A); Particle size distribution (B); Fly ash (D); Metakaolin (D); Limestone
Effect of temperature on the hydration of Portland cement blended with siliceous fly ash
Keywords: خاکستر پرواز (D); Fly ash (D); Blended cement (D); Temperature (A); Hydration (A); Modelling (E)
A Raman spectroscopic study of the evolution of sulfates and hydroxides in cement–fly ash pastes
Keywords: خاکستر پرواز (D); Cement (D); Fly ash (D); Ca(OH)2 (D); Sulfo-aluminate (D); Raman spectroscopy (nominated)
Gel nanostructure in alkali-activated binders based on slag and fly ash, and effects of accelerated carbonation
Keywords: خاکستر پرواز (D); Alkali activated cements (D); Granulated blast-furnace slag (D); Fly ash (D); Carbonation (C); NMR spectroscopy
Influence of particle size distributions on yield stress and viscosity of cement–fly ash pastes
Keywords: خاکستر پرواز (D); Cement (D); Fly ash (D); Particle size distribution (B); Rheology (A); Surface area (B)
The effect of supplementary cementitious materials on chloride binding in hardened cement paste
Keywords: خاکستر پرواز (D); Chloride binding; Fly ash (D); Granulated blast-furnace slag; Silica fume (D); Metakaolin (D)
Alkaline solution/binder ratio as a determining factor in the alkaline activation of aluminosilicates
Keywords: خاکستر پرواز (D); Alkaline solution/binder ratio; Alkali-activated cement (D); Fly ash (D); Metakaolin (D)
Pore structure characterization of cement pastes blended with high-volume fly-ash
Keywords: خاکستر پرواز (D); Characterization (B); Pore size distribution (B); Surface area (B); Fly ash (D)
Hydration of Portland cement with high replacement by siliceous fly ash
Keywords: خاکستر پرواز (D); Hydration (A); Fly ash (D); Blended Cement (D); Pozzolan (D); Filler (D)
Microstructural and compositional change of NaOH-activated high calcium fly ash by incorporating Na-aluminate and co-existence of geopolymeric gel and C–S–H(I)
Keywords: خاکستر پرواز (D); C–S–H (B); X-ray diffraction (B); Fly ash (D); Alkali activated cement (D); Geopolymer
Effect of fly ash on the kinetics of Portland cement hydration at different curing temperatures
Keywords: خاکستر پرواز (D); Cement (D); Fly ash (D); Hydration (A); Kinetics (A); Shrinking-core model
Thermodynamics and cement science
Keywords: خاکستر پرواز (D); Thermodynamic calculations (B); Blended cements (D); Fly ash (D); CaCO3 (D); Solubility constant
Selection of an effective ASR-prevention strategy for use with a highly reactive aggregate for the reconstruction of concrete structures at Mactaquac generating station
Keywords: خاکستر پرواز (D); Alkali-aggregate reaction (C); Fly ash (D); Granulated blastfurnace slag (D); Pozzolan (D)
The role of alkali content of Portland cement on the expansion of concrete prisms containing reactive aggregates and supplementary cementing materials
Keywords: خاکستر پرواز (D); Alkali–aggregate reaction (C); Alkalis (D); Fly ash (D); Pore solution (B); Modified accelerated mortar bar test
Effect of TEA on fly ash solubility and early age strength of mortar
Keywords: خاکستر پرواز (D); Acceleration (A); Glass (B); Pore solution (B); Fly ash (D); KOH (D)
Pozzolanic activity of clinoptilolite: A comparative study with silica fume, fly ash and a non-zeolitic natural pozzolan
Keywords: خاکستر پرواز (D); Fly ash (D); Ca(OH)2 (D); Pozzolan (D); Silica fume (D); Zeolite
The evolution of strength and crystalline phases for alkali-activated ground blast furnace slag and fly ash-based geopolymers
Keywords: خاکستر پرواز (D); Alkali-activated cement (D); Geopolymer (D); X-ray diffraction (B); Fly ash (D); Granulated blast furnace slag (D)
Reactivity of reclaimed concrete aggregate produced from concrete affected by alkali–silica reaction
Keywords: خاکستر پرواز (D); Alkali–Aggregate Reaction (C); Reclaimed concrete aggregate; Fly Ash (D); Lithium Compound (D); SEM (B)
The encapsulation of Mg(OH)2 sludge in composite cement
Keywords: خاکستر پرواز (D); Blended cement (D); Fly ash (D); Granulated blast-furnace slag (D); Waste management (E); Magnesium hydroxide