Keywords: سرباره انفجار سرباره; Granulated blast-furnace slag; Concrete; Mechanical properties; Calorimetry; Rigid cracking frame; Free shrinkage frame; Porosity;
مقالات ISI سرباره انفجار سرباره (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: سرباره انفجار سرباره; Granulated blast-furnace slag; Grinding; Fineness; Compressive strength;
Keywords: سرباره انفجار سرباره; Calorimetry; Thermogravimetric analysis; Fly ash; Granulated blast-furnace slag; Pozzolan; Silica fume;
Keywords: سرباره انفجار سرباره; Blended cement; Fuller distribution model; Steel slag; Granulated blast-furnace slag; Compressive strength; Microstructure;
Keywords: سرباره انفجار سرباره; Alkali activated cement; Granulated blast-furnace slag; Calcium-silicate-hydrate (C-S-H); Hydration products; Thermodynamic calculations;
Keywords: سرباره انفجار سرباره; Chloride binding; Granulated blast-furnace slag; Temperature; Diffusion; Microstructure;
Keywords: سرباره انفجار سرباره; Granulated blast-furnace slag; Hybrid cements; Alkaline activation; Compressive strength; Microstructural characterization;
Keywords: سرباره انفجار سرباره; Limestone; Hydration; PONKCS; Microstructure; Granulated blast-furnace slag;
Keywords: سرباره انفجار سرباره; One-part non-Portland cement; Granulated blast-furnace slag; Hydration products; Dissolution/condensation rates
Keywords: سرباره انفجار سرباره; Pore solution; Supplementary cementitious materials (SCM); Corrosion; Granulated blast-furnace slag; Chloride threshold;
Keywords: سرباره انفجار سرباره; Geopolymer cement powder; Dry activator; Granulated blast-furnace slag; Calcite
Keywords: سرباره انفجار سرباره; Alkali-activator; Composite; Granulated blast-furnace slag; PVA fiber; Rheology; Tensile ductility
Keywords: سرباره انفجار سرباره; Granulated blast-furnace slag; Alkali-activated cements; Red clay brick waste; Waste management
Keywords: سرباره انفجار سرباره; Granulated blast-furnace slag; Alkali-activated cements; Residual cement mortar; Waste management
Keywords: سرباره انفجار سرباره; Hydration; Microstructure; Backscattered electron imaging; Alkali activated blended; Granulated blast-furnace slag;
Keywords: سرباره انفجار سرباره; Compressive strength; Materials characterization; Calcium-silicate-hydrate; Palm oil fuel ash; Granulated blast-furnace slag; Sodium silicate; Geopolymers;
Keywords: سرباره انفجار سرباره; HMW; hydrated mortar waste; AASC; alkali-activated slag cement; PC; Portland cement; GGBFS; ground granulated blast furnace slag; GQS; ground quartz sand; GHCP; ground hydrated cement paste; GHM; ground hydrated mortar; Ssp; specific surface area; l/s; li
Keywords: سرباره انفجار سرباره; Gypsum; Granulated blast-furnace slag; Reaction; Hydration; Compressive strength; Isothermal conduction calorimetry; Pozzolanas
Keywords: سرباره انفجار سرباره; Gypsum; Granulated blast-furnace slag; Silica fume; Fly ash; Reaction; Hydration products; Microstructure; Ettringite
Keywords: سرباره انفجار سرباره; Helium ion microscopy; Alkali activated cement; Microstructure; Granulated blast-furnace slag; Drying
The influence of curing methods on the strength of MSWI bottom ash-based alkali-activated mortars: The role of leaching of OHâ and free alkali
Keywords: سرباره انفجار سرباره; Curing methods; Municipal solid waste incineration bottom ash; Granulated blast-furnace slag; Alkali-activated; Mortar; Free alkali; OHâ;
Effect of MgO on chloride penetration resistance of alkali-activated binder
Keywords: سرباره انفجار سرباره; Alkali activated cement; Chloride; Granulated blast-furnace slag; Fly ash; MgO;
Influence of loading and cracks on carbonation of RC elements made of different concrete types
Keywords: سرباره انفجار سرباره; Accelerated carbonation; Portland cement concrete; Fly ash; Granulated blast-furnace slag; Loading; Cracks;
Recycling and utilization assessment of waste fired clay bricks (Grog) with granulated blast-furnace slag for geopolymer production
Keywords: سرباره انفجار سرباره; Waste fired clay bricks (Grog); Granulated blast-furnace slag; Recycling and valorization; Geopolymer; Construction materials;
Characteristics of blended cements containing nano-silica
Keywords: سرباره انفجار سرباره; Granulated blast-furnace slag; Nano-silica; Hydration characteristics; Blended cements; Mechanical properties
Strain hardening fiber reinforced alkali-activated mortar – A feasibility study
Keywords: سرباره انفجار سرباره; Alkali-activated mortar; Granulated blast-furnace slag; Sodium sulfate; Calcium hydroxide; Strain-hardening; PVA fiber
The effect of supplementary cementitious materials on chloride binding in hardened cement paste
Keywords: سرباره انفجار سرباره; Chloride binding; Fly ash (D); Granulated blast-furnace slag; Silica fume (D); Metakaolin (D)
Improvement on sulfate resistance of blended cement with high alumina slag
Keywords: سرباره انفجار سرباره; Sulfate resistant cements; Ettringite; Granulated blast-furnace slag; CaCO3; Calcium sulfate
The influence of high volume of fly ash and slag on the compressive strength of self-consolidating concrete
Keywords: سرباره انفجار سرباره; Concrete; Compressive strength; Fly ash; Granulated blast-furnace slag; Efficiency; Chemical composition
High volume limestone alkali-activated cement developed by design of experiment
Keywords: سرباره انفجار سرباره; Alkali activated cement; Granulated blast-furnace slag; Mixture proportioning; Mechanical properties; Limestone; Design of experiment
Sulfate attack on a white Portland cement with activated slag
Keywords: سرباره انفجار سرباره; Sulfate attack; White Portland cement; Granulated blast-furnace slag; Chemical activator; Microstructure
Evaluation of calcium hydroxide contents in pozzolanic cement pastes by a chemical extraction method
Keywords: سرباره انفجار سرباره; Ca(OH)2; Carbonation; DTA/TG; Fly ash; Granulated blast-furnace slag
Influence of high temperature on the properties of concretes made with industrial by-products as fine aggregate replacement
Keywords: سرباره انفجار سرباره; High temperature; Bottom ash; Concrete; Fine aggregate; Granulated blast-furnace slag; Replacement
Durability of blast-furnace slag mortars subjected to sodium monofluorophosphate application
Keywords: سرباره انفجار سرباره; Carbonation; Frost salt scaling; Granulated blast-furnace slag; Sodium monofluorophosphate
Impact of time-dependant thermal expansion coefficient on the early-age volume changes in cement pastes
Keywords: سرباره انفجار سرباره; Fresh concrete; Shrinkage (C); Cement paste; Granulated blast-furnace slag; Thermal expansion coefficient
Development of a high-temperature-resistant mortar by using slag and pumice
Keywords: سرباره انفجار سرباره; High temperature; Mortar; Pumice; Granulated blast-furnace slag; Mechanical properties; Microstructure
Hydration mechanisms of super sulphated slag cement
Keywords: سرباره انفجار سرباره; Granulated blast-furnace slag; Compressive strength; Acceleration; Hydration; Hydration products
Characteristics of acid resisting bricks made from quarry residues and waste steel slag
Keywords: سرباره انفجار سرباره; Kaolin fine quarry residue; Granulated blast-furnace slag; Granite–basalt fine quarry residue; Acid resisting brick; Processing; Sintering
Effects of cement type, water/cement ratio and cement content on sea water resistance of concrete
Keywords: سرباره انفجار سرباره; Sea water; Chloride; Granulated blast-furnace slag; Mechanical properties
The effect of fineness on the properties of the blended cements incorporating ground granulated blast furnace slag and ground basaltic pumice
Keywords: سرباره انفجار سرباره; Blended cement; Ground basaltic pumice; Granulated blast-furnace slag; Fineness
The effect of slaked lime, anhydrous gypsum and limestone powder on properties of blast furnace slag cement mortar and concrete
Keywords: سرباره انفجار سرباره; Granulated blast-furnace slag; Pore size distribution; Drying shrinkage, Carbonation
Carbonation rates of concretes containing high volume of pozzolanic materials
Keywords: سرباره انفجار سرباره; Acceleration; Carbonation; Corrosion; Fly ash; Granulated blast-furnace slag
Basic properties of non-sintering cement using phosphogypsum and waste lime as activator
Keywords: سرباره انفجار سرباره; Granulated blast-furnace slag; Ettringite; Waste management; Hydration; Phosphogysum
Usage of industrial by-products to produce plain concrete elements
Keywords: سرباره انفجار سرباره; Aggregate; Bottom ash; Concrete; Briquette; Durability; Granulated blast-furnace slag; Kerb; Paving block
Activated fly ash/slag blended cement
Keywords: سرباره انفجار سرباره; Waste recycling; Fly ash; Granulated blast-furnace slag; Cementing material; Alkali activated
Effect of shrinkage-reducing admixtures on the properties of alkali-activated slag mortars and pastes
Keywords: سرباره انفجار سرباره; Alkali activated slag; Granulated blast-furnace slag; Shrinkage; Admixture
Autogenous shrinkage of concrete containing granulated blast-furnace slag
Keywords: سرباره انفجار سرباره; Shrinkage; Modeling; Granulated blast-furnace slag; Concrete
Strength development of mortars containing ground granulated blast-furnace slag: Effect of curing temperature and determination of apparent activation energies
Keywords: سرباره انفجار سرباره; Temperature; Compressive strength; Granulated blast-furnace slag; Apparent activation energy
The use of mathematical modelling in the composition of a composite material
Keywords: سرباره انفجار سرباره; Mixture proportioning; Compressive strength; Granulated blast-furnace slag; Composite; Modelling;
Effects of waste PET bottles aggregate on the properties of concrete
Keywords: سرباره انفجار سرباره; Waste PET bottles lightweight aggregate; Microstructure; Granulated blast-furnace slag; Compressive strength; Workability;