Keywords: سرباره انفجار; Alkali-aggregate reaction; Blast-furnace slag; Blended cement; Alkali-activated Portland blended cement; Hybrid cement;
مقالات ISI سرباره انفجار (ترجمه نشده)
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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; Bottom ash; Fly ash; Blast-furnace slag; Sulfate effect; Length change compressive strength; Microstructure;
Keywords: سرباره انفجار; Blended cement; Blast-furnace slag; Chemical activation; Quality improver;
Keywords: سرباره انفجار; Circulating fluidized bed ash; Blast-furnace slag; Compressive strength; Frost resistance; Carbonation; Sulfuric acid resistance;
Keywords: سرباره انفجار; Concrete; Mortar; Chloride; Sulphate; Magnesium; Combined attack; Blast-furnace slag;
Keywords: سرباره انفجار; Anaerobic digestion; Blast-furnace slag; Cheese whey; Downflow anaerobic filter; Kinetic modeling; Organic loading rate;
Keywords: سرباره انفجار; Concrete; Oxychlorides; Carbonation; Combined attack; Blast-furnace slag
Keywords: سرباره انفجار; Concrete; Chloride diffusion; Critical stress ratio; Combined attack; Blast-furnace slag;
Keywords: سرباره انفجار; Blast-furnace slag; Metakaolin; Geopolymer; Adsorption; Sulphate;
Keywords: سرباره انفجار; Blast-furnace slag; Supersulfated cement; Temperature; Hydration
Keywords: سرباره انفجار; Quaternary Portland cement; Blast-furnace slag; Fly ash; Thermodynamic modeling; Limestone; Hydrates;
Keywords: سرباره انفجار; Alkali-activated cement; Blast-furnace slag; Light-burnt dolomite; Sodium sulfate; Heat of hydration
Keywords: سرباره انفجار; Ternary system; Portland cement; Metakaolin; Blast-furnace slag; Hydration
Keywords: سرباره انفجار; Concrete; Mortar; Chlorides; Sulphates; Combined attack; Blast-Furnace Slag
Monitoring the setting process of eco-binders by ultrasonic P-wave and S-wave transmission velocity measurement: Mortar vs concrete
Keywords: سرباره انفجار; Setting time; Shear wave velocity; Green concrete; Blast-furnace slag; Limestone filler
Simultaneous removal of Ni(II), As(III), and Sb(III) from spiked mine effluent with metakaolin and blast-furnace-slag geopolymers
Keywords: سرباره انفجار; Geopolymer; Metakaolin; Blast-furnace slag; Adsorption; Mine-water treatment;
Influence of blast-furnace slag on behaviour of dolomite used as a raw material of MgO-type expansive agent
Keywords: سرباره انفجار; Dolomite; Blast-furnace slag; Expansion; Microstructure; Compressive strength;
Influence of particle size on the early hydration of slag particle activated by Ca(OH)2 solution
Keywords: سرباره انفجار; Blast-furnace slag; Particle size distribution; Reactivity; Hydration degree;
Using GGBOS as the alkali activators in GGBS and GGBOS blended cements
Keywords: سرباره انفجار; Alkali activations; Basic oxygen furnace slag; Blast-furnace slag; Cementitious materials
Effect of GGBFS on setting, workability and early strength properties of fly ash geopolymer concrete cured in ambient condition
Keywords: سرباره انفجار; Ambient curing; Blast-furnace slag; Compressive strength; Fly ash; Geopolymer; Setting time; Workability;
Performance of BFS concrete: k-Value concept versus equivalent performance concept
Keywords: سرباره انفجار; Blast-furnace slag; Durability; k-Value concept; Equivalent performance concept;
Carbonation of slag concrete: Effect of the cement replacement level and curing on the carbonation coefficient – Effect of carbonation on the pore structure
Keywords: سرباره انفجار; Blast-furnace slag; Carbonation; Microstructure; Curing
Ultra-low-cost route to mesocellular siliceous foam from steel slag and mesocellular carbon foam as catalyst support in fuel cell
Keywords: سرباره انفجار; Blast-furnace slag; Mesocellular siliceous foam; Mesocellular carbon foam; Fuel cell
Total shrinkage, oxygen permeability, and chloride ion penetration in concrete made with white Portland cement and blast-furnace slag
Keywords: سرباره انفجار; Shrinkage; White Portland cement; Blast-furnace slag; Curing; Chlorides
Environmental impact and life cycle assessment (LCA) of traditional and ‘green’ concretes: Literature review and theoretical calculations
Keywords: سرباره انفجار; Sustainability; Functional unit; Allocation; Life cycle inventory; Impact assessment; Cement; Blast-furnace slag; Fly ash
Preparation and properties of glass–ceramics derived from blast-furnace slag by a ceramic-sintering process
Keywords: سرباره انفجار; Blast-furnace slag; Sintering process; Glass–ceramics; Crystallization
Influence of the use of rice husk ash on the electrical resistivity of concrete: A technical and economic feasibility study
Keywords: سرباره انفجار; Rice husk ash; Electrical resistivity; Blast-furnace slag; Fly ash; Durability
Evaluation of destruction specific energy of fly ash and slag admixed concrete interlocking paving blocks (CIPB)
Keywords: سرباره انفجار; Destruction specific energy; Concrete paving block; Fly ash; Blast-furnace slag; Fracture toughness
Multi-phase hydration model for prediction of hydration-heat release of blended cements
Keywords: سرباره انفجار; Calorimetry; Hydration; Kinetics; Blended cement; Granulated; Blast-furnace slag
Durability of slag mortar reinforced with coconut fibre
Keywords: سرباره انفجار; Cement composites; Vegetable fibres; Blast-furnace slag; Durability; Lignin; Coir fibres;
Non Portland cements and derived materials
Keywords: سرباره انفجار; Blast-furnace slag; Fly ash; Chemically bound water; Mechanical strength;