Fly, Ash, Silica Fume, Slag and Natural Pozzolans in Concrete Vol - 2: Proceedings Sixth CANMET, ACI International Conference Bangkok, Thailand 1998

Preface The Repair of High-Strength Silica Fume Concrete- A Case History Pozzolanic Interaction between Portland Cement and Silica Fume in Concrete Engineering Properties of Concretes with Combinations of Cementitious Materials The Influence of Physical Properties of Aggregate on Shrinkage on High Strength Slag Cement Concrete Chloride Penetration into Concretes Incorporating Mineral Admixtures in Marine Environment Performance of Blast Furnace Slag Cement Concrete in Simulated Aggressive Marine Environment High Strength Natural Lightweight Aggregate Concrete with Silica Fume Performance of a Different Pozzolanic Cement Concrete under Cyclic Wetting and Drying Water Permeability of High Slag Content Concrete Effect and Mechanism of Natural Zeolite on Suppressing ASR in Concrete Monitoring Hydration of Alkali Activated Slag and Fly Ash Studies on the Properties of Super Workable Concrete Using Ground Granulated Blast Furnace Slag Compressive Strength of Portland Blast Furnace Slag Cement Concrete in Adiabatic and Semi Temperature Matched Curing Conditions Pore Structure Strength and Carbonation of Cement Pastes Containing Ground Granulated Blast Furnace Slag Potential of Blast Furnace Slags to Immobilize Toxic Wastes Effect of Superplasticizers in Highly Alkaline Model Suspensions Containing Silica Fume Silica Fume Distribution and Reactivity in Reactive Powder Concretes Microstructures of Concretes Made With and Without Blast Furnace Slag after 40 Years of Immersion in Saturated Gypsum Solutions at 20°C Influence of Silica Fume on Permeability of Concrete to Oxygen for Temperatures Up To 500°C Immobilization of Wastes by Metakaolin Blended Cements Pozzolanic Properties of Metakaolin Obtained From Paper Sludge Using Natural Pozzolans to Improve the Sulfate Resistance of Cement Mortars Suitability of Fumed Lead Blast Furnace Slag As A Mineral Admixture For Concrete Soil Stabilization using Lime Activated Ground Granulated Blast Furnace Slag Limestone Modified Cement for High-Performance Concretes Chemical Development of the Fluid from Pores of Admixture Bearing Mortars Affected By the Alkali Aggregate Reaction High Calcium Fly Ash to Silica Fume to Slag Sand Ratio versus Compressive Strength and Density of Cementless Concrete Influence of Storage Conditions and Concrete Composition on the Effectiveness of Different Silica Fumes against ASR