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CON 123 Session 7 - Slag Cement
- 1. CON 123 Cementitious Materials Session 7 Slag Cement
- 2. Ground Granulated Blast-Furnace Slag “Cement” (GGBFS) Ground Granulated blast-furnace slag is the correct technical term for slag that is finely ground and is used as a separately batched cementitious materials. Slag is ground to the fineness of Portland cement or finer.
- 3. Ground Granulated Blast-Furnace Slag “Cement” Finely Ground granulated blast-furnace slag consisting of primarily calcium and aluminum silicates, used as a partial replacement for Portland cement in concrete
- 4. ASTM 989 Slag Cement GGBFS – glassy granular material formed when molten blast-furnace slag is rapidly chilled as by immersion in water with or without compositional adjustments made while the blast-furnace is molten
- 5. Grades of Slag - ASTM C 989 Strength of 1:1 Slag: Cement Mortar Slag Activity Index = Strength of Control Cement Mortar Grade 7-day Index 28-day Index 80 - 75 100 75 95 120 95 115 Requirements for average of 5 consecutive
- 6. Specifications and Grade of Ground Granulated Iron Blast-Furnace Slags ASTM C 989 (AASHTO M 302) Grade 80 Slag with a low activity index Grade 100 Slag with a moderate activity index Grade 120 Slag with a high activity index
- 7. Slag - Manufacture Iron Blast Furnace Iron ore is layered with a mixture of limestone and coal or coke. The coal is the fuel. The limestone is a flux that reduces fusion temperatures. The molten materials settle out at the bottom and slag floats on the top of the pig iron. It is tapped away
- 8. Slag - Manufacture Iron Blast Furnace Iron Ore Limestone/Coal Fusion at 1400 to 1600 C Slag Pig Iron
- 9. Slag – Manufacture Hot Runner Molten blast furnace slag is tapped from the blast furnace, moved through a hot runner on the blast-furnace work floor. Dropped in a “blow” box to a jet-process granulator. GGBF is glassy - with the right chemistry and morphology to form hydraulic cement when finely ground.
- 10. Slag – Manufacture Hot Runner
- 11. Slag - Manufacture Jet Process Granulator Liquid Slag Adjustable Deflector Plate Furnace Runner Vibrating Feed Plate Rotating Drum Granules Pellets
- 12. Slag Products - Manufacture Molten Slag is cooled Air-cooled Aggregate Palletized Granules & Pellets Jet Process Granulator Granules Granules are ground in a ball mill Fineness similar to cement
- 13. Slag - Manufacture Grinding Mills
- 14. SEM Micrograph of Slag Particles Scanning electron microscope micrograph of slag particles. Scanning electron microscope micrograph of slag particles.
- 15. Slag - Characteristics Cooled Rapidly - Glass Fineness - 450 to 650 m2/kg Specific gravity - 2.90 White to Buff color Hydration - activated by alkalis Forms cementitious silicates - C-S-H
- 16. Slag - Reactivity Glass content Fineness Alkalis of reacting system Concrete curing temperature
- 17. Slag - Mechanism Portland Cement Portland Cement + GGBF Slag Reduced Permeability Increased Strength
- 18. Slag - Typical Dosage Application Dosage ( % by wt) Exterior flatwork 35% General use 35 to 50% Mass Concrete 60 to 80% Sulfate Resistance Type II equivalent 35% Type V equivalent 50% Marine/chemical/heat >50% < 80%
- 19. Slag – Typical Dosage Application Dosage (% by wt) Exterior Flatwork 35% General Use 35 to 50% Mass Concrete 60 to 80% Sulfate Resistance Type II Equivalent 35% Type V Equivalent 50% Marine/chemical/heat >50%, <80%
- 20. Slag - Mixture Proportioning Typical - 35 to 50% wt. cementitious w/c ratio w/(cement + slag) ratio Water demand - 1 to 5% lower Admixture dosage Similar for air entraining admixtures May be lower for others SG 2.90 - more abs. vol. than cement
- 21. Slag Benefits Workability Finishability Pumpability Color Durability Strength
- 22. GGBF Slag Concrete Workability 22
- 23. GGBF Slag Concrete Finishability
- 24. GGBF Slag Concrete Pumpability
- 25. GGBF Slag Concrete Color 25
- 26. Slag - Applications Compressive and Flexural strength Permeability Sulfate Resistance Alkali Silica Reactivity Mass concrete - more than 70% slag
- 27. GGBF Slag Concrete Compressive Strength 6000 Grade 120 Slag Compressive Strength, psi 5000 W/C+M ratio = 0.55 4000 3000 Portland Cement 2000 40% Slag 1000 50% Slag 65% Slag 0 0 5 10 15 20 25 30 Age, days Ref: ACI 233R
- 28. GGBF Slag Concrete Flexural Strength 900 800 Grade 120 Slag W/C+M ratio = 0.55 Flexural Strength, psi 700 600 500 400 Portland Cement 300 40% Slag 200 50% Slag 100 65% Slag 0 0 5 10 15 20 25 30 Age, days
- 29. GGBF Slag Concrete Sulfate Resistance 0.25 Portland Cement (Type II) Expansion mortar bars, % 0.20 40% Slag 50% Slag 0.15 65% Slag 0.10 0.05 0.00 0 10 20 30 40 50 60 70 Age, Weeks Ref: ACI 233R
- 30. GGBF Slag Concrete Alkali-Aggregate Reactions 0.40 Expansion mortar bars, % 0.30 Portland Cement 40% Slag 0.20 50% Slag 65% Slag 0.10 0.00 0 5 10 15 20 Age, Months Ref: ACI 233R
- 31. GGBF Slag Concrete Heat in Mass Concrete 80 70 Concrete Temperature, C 60 50 40 30 20 Portland Cement 10 70% Slag 0 1 10 100 1000 Age, Hours Ref: ACI 233R
- 32. GGBF Slag Concrete Chloride Permeability 7500 Water-Cement Ratio Charge Passed, Coulombs 6000 0.70 4500 0.55 0.45 3000 1500 0 Portland cement 25% Slag 50% Slag
- 33. Slag Cement and the Environment Recovered/ recycled material Replaces Portland cement Reduction of CO2 Reduction of Heat Reduced Material extraction Energy Saving Lighter Color
- 34. LEED Credits Leadership in Energy and Environmental Design (LEED) is a system developed by the United States Green Building Council to rate a building's environmental performance. This system has become the principal method by which buildings can achieve green building certification. The system is based on credits earned in five major categories. Slag cement can positively impact several credit categories
- 35. LEED Categories Site credit for reduction of heat islands: Use of high-albedo materials like concrete produced with slag cement. Materials credit for building reuse: Slag cement makes concrete structures more durable. Materials credit for recycled content: Slag cement is a recycled material used in concrete. Materials credit for use of local/regional materials: Slag cement can be considered a local material in many areas. For more information on the LEED system, visit www.usgbc.org
- 36. LEED Categories Site credit for reduction of heat islands: Use of high-albedo materials like concrete produced with slag cement. Materials credit for building reuse: Slag cement makes concrete structures more durable. Materials credit for recycled content: Slag cement is a recycled material used in concrete. Materials credit for use of local/regional materials: Slag cement can be considered a local material in many areas. For more information on the LEED system, visit www.usgbc.org.