Construction 5 minute Flash Silica Fume and Fly

Construction 5 minute Flash Silica Fume and Fly ash Mohamed Wagih BU Manager Contractors Sika Qatar Sika Egypt

Construction Flash Agenda : • Definition. • Specification Standards. • Chemical and physical Characteristics. • Advantage and Disadvantage of Fly Ash in Fresh and hardened concrete. • Reaction of Silica Fume in Concrete • Physical Contribution. • Chemical Contribution. • Effect of Silica Fume on fresh concrete and how those effects improve constructability and the final concrete. • Effect of Silica Fume on Hardened Concrete and how those effects are used in concrete applications. 5 minute Flash

Construction Definition Silica Fume Very fine non-crystalline silica produced in electric arc furnaces as a by product of the production of elemental silicon or alloys containing silicon-ACI 116 RGrey colored powder similar to Portland cement or some fly ash. Fly Ash Fly ash is a group of materials that can vary significantly in composition. It is residue left from burning coal, which is collected on an electrostatic precipitator or in a bag house. It mixes with flue gases that result when powdered coal is used to produce electric power. 5 minute Flash

Construction Fly Ash standards: • Class ” F “ is made from burning anthracite and/or bituminous coal. • Class “ C “" is produced from lignite or sub bituminous coal. In Canada, there is a further distinction. • When the lime content is 8 -20 percent, it is classified Cl, and when it is higher, it is class C. Silica Fume ( ASTM C 1240 ) : • Minimum Silicon Dioxide of 85 %. • Maximum Moisture content to 3 %. • Maximum loss in ignition to 6 %. • The Oversize materials retained on a 45 - m ( No. 325) sieve to a maximum of 10 %. • The maximum variation from average be no more than 5% points. 5 minute Flash

Construction Comparison of chemical and physical Characteristics Fly Ash, Silica Fume and Portland cement. Property Portland Cement Fly Ash Class F Fly Ash Class C Silica Fume Si. O 2 % 21 52 35 85 to 97 Ca. O % 62 5 21 <1 Fineness as surface area , m 2/Kg 370 420 15, 000 to 30, 000 Specific gravity 3. 15 2. 38 2. 65 2. 22 General use in Concrete Primary binder Cement replacement Property enhancer Silica Fume is typically much more reactive, particularly at early ages , because of its higher silicon dioxide content and because of its very small particle size. 5 minute Flash

Construction 5 minute Flash

Construction Advantages of Fly Ash : In Fresh Concrete In Hardened Concrete Fly Ash particles are spherical and in the same size range as Portland cement, a reduction in the amount of water needed for mixing and placing concrete can be obtained. Good quality fly ash generally improves workability or at least produces the same workability with less water. The reduction in water leads to improved strength. In precast concrete , this can be translated into better workability , resulting in sharp and distinctive corners and edges with better surface appearance , it also reduce permeability which is leading cause of premature failure. Fly Ash has been suspected of contributing to corrosion because it reacts with Calcium Hydroxide. Also, it reduces permeability that help to protect the concrete from Chloride penetration. The use of Fly Ash can result in better workability , pump ability , Cohesiveness , finish, ultimate strength and durability. A super plastizer combined with Fly Ash can be used to make high-performance and high strength concrete. The fine particles in fly ash help to reduce bleeding and segregation. Concrete containing fly ash generally performs better than plain concrete in drying shrinkage tests. Cost of fly ash Fly ash typically costs approximately 1/2 to 1/3 that of Portland cement as delivered, assuming a suitable means of batching is already in place. 5 minute Flash

Construction Disadvantages of Fly Ash : • Poor-quality fly ash can have a negative effect on concrete (increase permeability ). • Some concrete will set slowly when fly ash is used. Though this might be perceived as a disadvantage, it can actually be a benefit by reducing thermal stress. • Freeze-thaw durability may not be acceptable with the use of fly ash in concrete. • High-carbon fly ash materials tend to use more water and darken the concrete as well. 5 minute Flash

Construction Reaction of Silica fume in Concrete : The benefit seen from adding Silica Fume are the result of changes to the microstructure of the concrete. Physical Contribution Chemical Contribution 5 minute Flash

Construction Physical Contribution : • Adding Silica Fume brings millions and millions of very small particles to concrete mixture. • Just like fine aggregates fills in the spaces between coarse aggregate particles, Silica Fume fills in the spaces between cement grains. • This phenomenon is frequently referred to as particle packing or micro-filling. Even if Silica Fume didn’t react chemically, the micro-filler effect would bring about significant improvement in the nature of the concrete. 5 minute Flash

Construction Chemical Contribution : • It is a very high amorphous silicon dioxide content because of that silica fume is a very reactive Pozzolanic material in concrete. • As the Portland Cement in concrete begins to react chemically it releases Calcium hydroxide. • The Silica Fume reacts with this Calcium hydroxide to form additional binder material called Calcium Silicate hydrate , which is very similar to the Calcium hydrate formed from the Portland cement. • It is largely this additional binder that gives silicafume concrete its improved hardened properties. 5 minute Flash

Construction Effect of Silica Fume on fresh concrete and how those effects improve constructability and the final concrete. 5 minute Flash

Construction Effect of Silica Fume on Hardened Concrete and how those effects are used in concrete applications. 5 minute Flash

Construction We hope You got the information you need from this flash By: Eng. : Mohamed Wagih Business Unit Contractors Manager Sika Gulf B. S. C - Qatar Division Return to the Technical Data sheet for more details 5 minute Flash