Table of Contents
SP-217—1: Self-Compacting Concrete: What Is New?
by M. Collepardi
SP-217—2: Durability of Concrete Made with Different Chemical Admixtures Under Marine Splash Environment
by T. U. Mohammed, H. Hamada, and T. Yamaji
SP-217—3: Improving Concrete Performance with Shrinkage-Reducing Admixtures
by N. S. Berke, L. Li, M. C. Hicks, and J. Bae
SP-217—4: Influence of Calcium Nitrite Inhibitor and Fly Ash on the Corrosion of High-Performance Concrete Slabs Containing a Construction Joint
by P. Montes, T. W. Bremner, and D. Mrawira
SP-217—5: The Use of Chemical Admixtures to Facilitate Placement of Concrete at Freezing Temperatures
by S. A. Farrington and B. J. Christensen
SP-217—6: The Electrostatic Potential of Highly Filled Cement Suspensions Containing Various Superplasticizers
by O. Blask and D. Honert
SP-217—7: Low Heat Development in Self-Compacting Concretes for Massive Structures
by R. Troli, J. J. Ogoumah Olagot, S. Monosi, and M. Collepardi
SP-217—8: A New Superplasticizer for Early High-Strength Development in Cold Climates
by T. Cerulli, P. Clemente, M. Decio, G. Ferrari, M. Gamba, D. Salvioni, and F. Surico
SP-217—9: Development of Slump-Loss Controlling Agent with Minimal Setting Retardation
by D. Hamada, H. Sato, H. Yamamuro, T. Izumi, and T. Mizunuma
SP-217—10: Interaction of Superplasticizers with Clay-Bearing Aggregates
by A. A. Jeknavorian, L. Jardin, C. C. Ou, H. Koyata, and K. Folliard
SP-217—11: Method of Estimating Plastic Viscosity of Cement Paste, Mortar, and Concrete Containing a Chemical Admixture
by H. Kikukawa and T. Iisaka
SP-217—12: Calcium Sulfoaluminate-Based Expansive Admixtures—A Review
by W. Repette and N. P Mailvaganam
SP-217—13: The Molecular Parameters and the Effect of Comb-Type Superplasticizers on Self-Compacting Concrete: A Comparison of Comb-Type Superplasticizer Adsorption onto a Basic Calcium Carbonate Medium in the Presence of Sodium Sulphate
by C. Comparet, A. Nonat, S. Pourchet, M. Mosquet, and P. Maitresse
SP-217—14: Effects of Increasing Dosages of an Alkali-Free Accelerator on the Physical and Chemical Properties of Hydrating Cement Paste
by A. Bravo, T. Cerulli, C. Maltese, C. Pistolesi, and D. Salvioni
SP-217—15: The Influence of Mineral Additions on the Rheology of Self-Compacting Concrete
by V. Corinaldesi and G. Moriconi
SP-217—16: Rheological Characterization of Superplasticized Cement Pastes Containing Mineral Admixtures: Consequences on Self-Compacting Concrete Design
by M. Cyr and M. Mouret
SP-217—17: Development of Concrete with High Early-Age Strength
by J. Ambroise and J. Péra
SP-217—18: Empirical and Fundamental Methods for Measuring Rheological Properties in Cement-Based Materials
by B. G. Petersen and K. Reknes
SP-217—19: Superplasticizer Adsorption on Synthetic Ettringite
by J. Plank and C. Hirsch
SP-217—20: Effectiveness of Shrinkage-Reducing Admixtures on Different Concrete Mixtures
by A. B. Ribeiro, A. Carrajola, and A. Gonçalves
SP-217—21: Cement Characteristics Affecting the Performance of ß-Naphthalene Sulfonate Superplasticizer
by Y. Nakajima, T. Goto, and K. Yamada
SP-217—22: Performance of a Multifunctional and Multipurpose Superplasticizer for Concrete
by H. Nakanishi, S. Tamaki, M. Yaguchi, K. Yamada, M. Kinoshita, M. Ishimori, and S. Okazawa
SP-217—23: The Effects of a New High-Range Water-Reducing Agent on the Improvement of Rheological Properties
by T. Sugamata, T. Sugiyama, and A. Ohta
SP-217—24: Performance and Compatability of Permeability Reducing and Other Chemical Admixtures in Australian Concretes
by R. L. Munn, G. Kao, and Z.-T. Chang
SP-217—25: Influence of Molecular Structure of Comb-Type Superplasticizers and Inorganic Electrolytes on the Dispersion Mechanisms of Limestone Powder
by E. Sakai, D. Atarashi, A. Kawakami, and M. Daimon
SP-217—26: Performance of an Advanced Polycarboxylate-Based Powder Superplasticizer
by K. Tsukada, M. Ishimori, and M. Kinoshita
SP-217—27: Effect of an Alkaline Set Accelerator on Normal Portland Cement Paste in the Presence of a Superplasticizer
by Q. Xu, C. Röler, J. Stark, and P. Wang
SP-217—28: A New Rapid Test Method to Predict LiNO3 Dosage for Controlling ASR Expansion
by C.-S. Shon, D. G. Zollinger, and S. L. Sarkar
SP-217—29: Study on the Properties of Lightweight Aggregate Concrete Consisting of High-Performance Lightweight Aggregate
by J. Sakamoto,Y. Takaki, Y. Takeichi, and S. Enomoto
SP-217—30: Compatibility of Polycarboxylate Superplasticizers with Cements and Cementitious Blends
by I. Schober and U. Mäder
SP-217—31: Influence of N, N'-Dimethylaminoethanol Corrosion Inhibitor on Carbonation and Chloride-Induced Corrosion of Steel
by G. Batis, E. Rakanta, V. Theodoridis, K. K. Sideris, K. Psomas, and X. Barvari
SP-217—32: The Effect of Lithium-Based Admixtures on the Properties of Concrete
by M. D. A. Thomas, D. Stokes, and T. Rodgers
SP-217—33: Effects of Superplasticizers, Powder Fineness, and Solution Electrolyte Content on the Rheology of Model Paste Systems
by D. S. Swift and P. F. G. Banfill
SP-217—34: Influence of Superplasticizer on Activation Energy and Autogeneous Shrinkage of Cement Paste at Early Age
by P. Mounanga, A. Loukili, and A. Khelidj
SP-217—35: Studies of Cement—Admixture Interactions Related to Aluminate Hydration Control by Isothermal Calorimetry
by P. Sandberg and L. R. Roberts
SP-217—36: Air-Entraining Admixtures for Use with Fly Ashes Having High Carbon Contents
by P. C. Nkinamubanzi, A. Bilodeau, C. Jolicoeur, and D. M. Golden
SP-217—37: Influence of PolyOxyEthylene Di-Phosphonate on the Formation of Ettringite
by A. Guerini, C. Filiâtre, C. Canevet, M. Mosquet, and A. Foissy
SP-217—38: Why Does TIPA Lead to an Increase of the Mechanical Properties of Mortars When TEA Does Not?
by J.-P. Perez, A. Nonat, S. Pourchet, S. Garrault, M. Mosquet, and C. Canevet
SP-217—39: Investigation of Physico-Chemical Aspects of Air-Entraining Cementitious Systems
by C. Jolicoeur, T. C. To, T. S. Nguyen, R. Hill, and M. Pagé