Table of Contents
SP-242—1: Beneficiated Fly Ash Versus Normal Fly Ash or Silica Fume
by M. Collepardi, S. Collepardi, J.J. Ogoumah Olagot, and R. Troli
SP-242—2: Alkaline Activation of Synthetic Gehlenite Glasses by J. Deja
SP-242—3: Bending Fatigue Strength of Roller-Compacted Concrete With Fly Ash as a Substitute for Fine Aggregate by E. Matsuo, K. Hino, and S. Hamada
SP-242—4: Temperature Rise and Strength Development in Laboratory-Cast
Concrete Structural Elements Containing Slag by S.J. Barnett, M.N. Soutsos, S.G. Millard, and J.H. Bungey
SP-242—5: Stabilization of Industrial By-Products in Mortars Containing
Metakaolin by M. Cyr, R. Idir, G. Escadeillas, S. Julien, and N. Menchon
SP-242—6: Silica Fume in High-Quality Concrete—A Review of Mechanism and Performance by H. Justnes
SP-242—7: Microstructure of Concrete Made with Blends of Fly Ash Cement and Waste Clay by Backscattered Electron Images by M.I. Sánchez de Rojas, M. Frías, F.P. Marín, and J. Rivera
SP-242—8: Use of Electric Arc Furnace Slag as a Raw Feed Component for Portland Clinker Manufacture by M. Marroccoli, M. Nobili, A. Telesca, and G.L. Valenti
SP-242—9: Kinetics of Pozzolanic Reaction and Strength Build-Up in the Mortar of Biomass/Coal Fly Ash with Calcium Hydroxide by S. Wang, R. Dalton, S. Bragonje, J. Tullis, and L. Baxter
SP-242—10: The Measurement and Analysis of Silica Fume Partical Size
Distribution and De-Agglomeration of Different Silica Fume Product Forms
by J. Wolsiefer Sr.
SP-242—11: A New Accelerated Rapid Chloride Permeability Test for Measuring Permeability of HPC for Highway and Bridge Applications by R.K. Panchalan and V. Ramakrishnan
SP-242—12: Investigations into Properties and Treatment of Collie Fly Ash that Influence Admixture Sensitivity in Blended Cement Concretes by R.L. Munn and Z.-T. Chang
SP-242—13: Fly Ash from Co-Burning Bituminous Coal and Biomass—Effect on Properties of Cement by J. Małolepszy and E. Tkaczewska
SP-242—14: Durability of High-Strength Concrete with Silica Fume: Temperature Attack and Freezing-and-Thawing Cycles by I. Janotka
SP-242—15: A Comparative Study on Mortar Containing Silica Fume and High Reactivity Metakaolin in Relation to Restrained Shrinkage Stress Development
and Cracking by A.B. Hossain, S. Islam, and B. Reid
SP-242—16: Long Term Chloride Intrusion in Field-Exposed Concrete with and without Silica Fume by O. Skjølsvold, H. Justnes, T.A. Hammer, and P. Fidjestøl
SP-242—17: Measuring Shrinkage of Self-Consolidating Concrete Incroporating Fly Ash and Silica Fume Using Fiber-Optic Sensor by P.L. Ng, H.H.C. Wong, I.Y.T. Ng, and A.K.H. Kwan
SP-242—18: Synthetic Glass Models for Investigating Fly Ash Reactivity
by W. Bumrongjaroen, S. Swatekititham, R.A. Livingston, and J. Schweitzer
SP-242—19: Fly Ash-Silica Fume-Cement Paste-Kinetics of Hydration
by W. Nocuń-Wczelik
SP-242—20: Characterizing Cement Pastes Incorporating Two High Silica Fine Materials Using Electrical Impedance by N. Schwarz, M. DuBois, and N. Neithalath
SP-242—21: Mitigation of ASR Expansion by Biomass/Coal Fly Ash and the
Underlying Mechanism by Pore Solution Chemistry by S. Wang, S. Bragonje, J. Tullis, R. Dalton, and L. Baxter
SP-242—22: Suppressing Effect of Fly Ash Composition on Expansion of Mortar Due to Alkali-Silica Reaction by Y. Kawabata and H. Matsushita
SP-242—23: Compa
y B. Ahmadi, H. Layssi, M. Shekarchi, and J.E. Nejad
SP-242—24: Mechanical Properties and Durability Characteristics of High-Volume Fly Ash Concrete Made with Ordinary Portland Cement and Blended Portland Fly Ash Cement by N. Bouzoubaâ, A. Bilodeau, V. Sivasundaram, and A.K. Chakraborty
SP-242—25: Fracture Toughness of Cement Mortar Containing High Volume Fly Ash by S.F.U. Ahmed and M. Maalej
SP-242—26: Lightweight Aggregate Fines as Pozzolanic Additive for High-
Performance Concrete by P.A. Dahl, H. Justnes, G. Norden, and O. Hyrve
SP-242—27: Physical Properties of CLSM Using High Volumes of Incineration Ash from Sewage Sludge by T. Horiguchi, T. Kikuchi, Y. Nakagawa, and K. Shimura
SP-242—28: Composition of C-S-H in the Hydration Products of Fly Ash-Cement System by P. Termkhajornkit and T. Nawa
SP-242—29: The Influence of Mineral Admixtures on Rheology of Superplasticized Fresh Mortars by J. Gołaszewski
SP-242—30: Alkali-Activated Slag Concrete—Development for Practical Use
by V. Bilek, M. Urbanova, J. Brus, and D. Kolousek
SP-242—31: Two-Stage Processing to Promote the Use of the Reject Coarse
Fraction of Fly Ash into Blended Cement by S.K. Antiohos, G. Tzouvalas, and S. Tsimas
SP-242—32: Pore Structure and Strength Prediction of Fly Ash Concrete
by A.-S. Cheng, T. Yen, Y.-N. Sheen, and K.C. Jane
SP-242—33: Increasing Packing Density Through Blending Cement, Fly Ash, and Silica Fume to Improve Cement Paste Rheology by H.H.C. Wong, I.Y.T. Ng, P.L. Ng, and A.K.H. Kwan
SP-242—34: Use of Waste Bricks and Tiles as a Pozzolan-Like Material in
Concrete by H.-S. Peng, H.-J. Chen, C.-W. Tang, and H.H. Pan
SP-242—35: Performance of a Mexican ASTM Class F Fly Ash in Studies Dealing with Concrete Durability by R.E. Rodríguez Camacho, B. Martínez-Sánchez, J.J. Flores Martínez, R.U. Afif, and H.J. Montaño Román
SP-242—36: Evaluation of Transport Properties of Ternary (OPC/FA/SF) Concrete Mixtures Using Migration and Absorption-Type Tests
by M. Radlinski, J. Olek, and T.E. Nantung
SP-242—37: The Influence of Lightweight Aggregates Additions in Concrete
Mixtures Containing Alkali-Aggregate Reactive Normalweight Aggregate
by T.W. Bremner, S.R. Boyd, T.A. Holm, and J.P. Ries
SP-242—38: Sulfate Resistance of Mortars Made from Cements Containing
Fluidized-Bed Coal Combustion Wastes by Z. Pytel
SP-242—39: Properties of Two- and Three-Component Blended Cements with
Different Types of Fly Ashes By J. Małolepszy, M. Gawlicki, and R. Mróz