Keywords: واکنش پوزولانیک; Fly ash; Mechano-chemical activation; Alkali activation; Isothermal heat conduction calorimetry; Pozzolanic reaction;
مقالات ISI واکنش پوزولانیک (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: واکنش پوزولانیک; Ultra-high-performance concrete; Heat-treatment; Shrinkage; Internal curing; Superabsorbent polymer; Pozzolanic reaction;
Keywords: واکنش پوزولانیک; Cemented soil; Composite alkaline activator; Hydration; Pozzolanic reaction; Reaction products;
Keywords: واکنش پوزولانیک; Electroosmotic chemical treatment; Pozzolanic reaction; Polymerization effect; Chemical solutions; Full improvement;
Keywords: واکنش پوزولانیک; POFA; Palm oil fuel ash; G-POFA; Ground palm oil fuel ash; T-POFA; Treated palm oil fuel ash; U-POFA; Ungrounded POFA; Palm oil fuel ash; Heat treatment; Microstructure; Pozzolanic reaction; Cement replacement;
Keywords: واکنش پوزولانیک; Nano Palm Oil Fuel Ash; Agricultural waste; Material properties; Hydration properties; Pozzolanic reaction;
Keywords: واکنش پوزولانیک; Cement-treated soils; Compressive strength; Carbonation; Pozzolanic reaction; Thermal analysis; Mercury intrusion porosimetry; X-ray diffraction; Micropore;
Keywords: واکنش پوزولانیک; Nano-SiO2; Sodium sulfate; High volume fly ash; Cement; Hydration; Pozzolanic reaction; Pore structure; Interfacial transition zone;
Keywords: واکنش پوزولانیک; Rammed earth; Coal ash; Pozzolanic reaction; Compressive strength; Durability;
Keywords: واکنش پوزولانیک; Borosilicate glass powder; Pozzolanic reaction; Compressive strength; Neutron shielding;
Keywords: واکنش پوزولانیک; Kaolinite; Ca2Â +-bentonite; Lime; Mechanical performance; Pozzolanic reaction; Physico-chemical characterization;
Keywords: واکنش پوزولانیک; Ceramic waste; Carbon nanotubes; Pozzolanic reaction; Compressive strength; Thermal resistance;
Keywords: واکنش پوزولانیک; Compressive strength; Durability; Interfacial transition zone; Microstructures; Pozzolanic reaction; Recycling;
Keywords: واکنش پوزولانیک; Glass; Pozzolanic reaction; Pore solution; Alkali–silica reaction
Keywords: واکنش پوزولانیک; Natural zeolite; Durability; Water absorption; Pozzolanic reaction; Drying shrinkage
Keywords: واکنش پوزولانیک; Fly ash blended cement materials; Pozzolanic reaction; Carbonation; Electrochemical impedance spectroscopy; Equivalent circuit model; Prediction
Keywords: واکنش پوزولانیک; Rice husk ash; Hydration; Pozzolanic reaction; Model;
Keywords: واکنش پوزولانیک; Glass powder; Cement paste; Pozzolanic reaction; Microstructure;
Keywords: واکنش پوزولانیک; Nanoparticles; Inorganic foams; Three-phase-foams; Carbon nanotubes; Titanate nanotubes; Pozzolanic reaction
Keywords: واکنش پوزولانیک; Diffusivity; Durability; Interfacial transition zone; Porosity; Pozzolanic reaction; Slurried silica fume
Keywords: واکنش پوزولانیک; Nano-TiO2; Fly ash cement; Compressive strength; Pozzolanic reaction; Interfacial transition zone;
Keywords: واکنش پوزولانیک; Rice Husk Ash (RHA); Filler effect; Pozzolanic reaction; Properties of mortars; Microstructure of mortars;
Keywords: واکنش پوزولانیک; ASR; Expansion; Mortar; Waste glass sludge; WGS; Glass powder; Pozzolanic reaction; XRD;
Keywords: واکنش پوزولانیک; Supplementary cementitious materials; Porcelain residue; Pozzolanic reaction;
Keywords: واکنش پوزولانیک; Alkali activation; Pozzolanic reaction; Fly ash cement paste; Ca(OH)2 content; Ca(OH)2 consumption; Porosity;
Keywords: واکنش پوزولانیک; Durability; Interfacial transition zone; Microstructure; Lightweight aggregate; Pozzolanic reaction
Keywords: واکنش پوزولانیک; High volume fly ash; Compressive strength; Hardening concrete; Hydration; Pozzolanic reaction; Model
Keywords: واکنش پوزولانیک; Insulator powder; Particle size; Cement-based mortar; Pozzolanic reaction
Keywords: واکنش پوزولانیک; Ultrafine fly ash; Grinding aids; Particle characteristics; Pozzolanic reaction; Blended cement property; Hydration product
Keywords: واکنش پوزولانیک; High belite sulfoaluminate cement; Fly ash; C-S-H; Pozzolanic reaction; Activator;
Keywords: واکنش پوزولانیک; Switchgrass ash; Industrial waste recycling; Biomass combustion; Pozzolanic reaction; Cement production;
Keywords: واکنش پوزولانیک; Interfacial transition zone; Nano-particles; Permeability; Pore size distribution; Porosity; Pozzolanic reaction;
Keywords: واکنش پوزولانیک; Kaolinite; Metakaolin; Pozzolanic reaction; Alkali activated lime pozzolan
Keywords: واکنش پوزولانیک; Fly ash; Hydration; Dilution effect; Pozzolanic reaction; Stoichiometric ratio; Compressive strength; Model
Keywords: واکنش پوزولانیک; Metakaolin (D); Pozzolanic reaction; Alkali content (D); Portlandite consumption; Cement composition (D)
Keywords: واکنش پوزولانیک; Lime stabilization; Microstructure; Cation exchange; Pozzolanic reaction; Compressibility; Hydraulic conductivity
Keywords: واکنش پوزولانیک; Smectite; Kaolinite and illite; Lime consumption; Short-term reaction; Pozzolanic reaction; Calcium-hydrates
Keywords: واکنش پوزولانیک; Calcium Carbide Residue; Pozzolanic reaction; Recycled material; Strength; Compressibility;
Pozzolanic reaction of lightweight fine aggregate and its influence on the hydration of cement
Keywords: واکنش پوزولانیک; Lightweight fine aggregate; Pozzolanic reaction; Cement hydration; C-A-S-H;
Monitoring hydration of UHPC and conventional paste by quantitative analysis on Raman patterns
Keywords: واکنش پوزولانیک; Raman spectroscopy; Quantitative analysis; Cement hydration; Pozzolanic reaction; UHPC
Effect of burnt oil shale on ASR expansions: A petrographic study of concretes based on reactive aggregates
Keywords: واکنش پوزولانیک; Alkali-silica reaction; Pozzolanic reaction; Potentially reactive aggregate; Burnt oil shale; Expansion; SEM;
Pozzolanic hardened three-phase-foams
Keywords: واکنش پوزولانیک; NS B, 35% w/w A90 dispersion and 60 mmol/L betaine; NS H, 35% w/w A 90 dispersion and 75 mmol/L n-hexylamine; MO B, 30% w/w MOX 80 dispersion and 10 mmol/L betaineNanoparticles; Inorganic foams; Foam stability; Three-phase-foams; Pozzolanic reaction; Pozz
Fire resistance and mechanical properties of carbon nanotubes – clay bricks wastes (Homra) composites cement
Keywords: واکنش پوزولانیک; Clay bricks wastes (Homra); Carbon nanotubes; Thermal treatment; Compressive strength; Pozzolanic reaction; Composite
Compressive strengths of mortar cubes from hydrated lime with cofired biomass fly ashes
Keywords: واکنش پوزولانیک; Cofired biomass fly ash; Fly ash; Compressive strength; Hydrated lime; Pozzolanic reaction
Quantitative kinetics of pozzolanic reactions in coal/cofired biomass fly ashes and calcium hydroxide (CH) mortars
Keywords: واکنش پوزولانیک; Quantitative kinetics; Pozzolanic reaction; Cofired biomass fly ash; Calcium hydroxide; Diffusion control; TGA
Pozzolanic reaction of a mortar made with cement and slag vitrified from a MSWI ash-mix and LED sludge
Keywords: واکنش پوزولانیک; MSWI ashes; LED sludge; Cement mortar; Compressive strength; Pozzolanic reaction; Nano-particles
Stabilization of heavy metals in MSWI fly ash using silica fume
Keywords: واکنش پوزولانیک; Silica fume; Municipal solid waste; Fly ash; Stabilization; Pozzolanic reaction
The effect of binary pozzolan mix on the mineralogical changes in the ternary activated paper sludge-fly ash-Ca(OH)2 system
Keywords: واکنش پوزولانیک; Paper sludge wastes; Activation scale; Fly ash; Mineralogical phases; Pozzolanic reaction; Modeling;
The effects of the mechanical–chemical stabilization process for municipal solid waste incinerator fly ash on the chemical reactions in cement paste
Keywords: واکنش پوزولانیک; Milling process; Municipal solid waste incinerator fly ash; Pozzolanic reaction; C–S–H; Stabilization; Heavy metal
Strength development in silty clay stabilized with calcium carbide residue and fly ash
Keywords: واکنش پوزولانیک; Fly ash; Calcium carbide residual; Unconfined compressive strength; Soil stabilization; Pozzolanic reaction; Waste material