Table of Contents
SP-262—1
Use of a Supplemental Agent to Improve Flowability of Ultra-High Performance Concrete.
By J. Plank, C. Schröfl, and M. Gruber
SP-262—2
Performance of Superplasticizers in Blended Cement Systems.
by I. Papayianni and F. Karkantelidou
SP-262—3
Multifunctional Chemical Admixture to Reduce Quality Control Requirements of
Self-Consolidated Concrete
By A.A. Jeknavorian, E. Koehler, A. Abelleira, D. Geary, and R. Cook
SP-262—4
Polycarboxylate and Polyether Admixture Compatibility with Different Cement Compositons.
by M.M. Alonso, F. Puertas, and M. Palacios
SP-262—5
Compatibility of Viscosity-Enhancing Agents and Superplasticizers in Cementitious and Model Systems: Rheology, Bleeding, and Segregation.
by N. Mikanovic, J. Sharman, C. Jolicoeur, K. Khayat, and M. Pagé
SP-262—6
A Summary of Important Characteristics of Cement and Superplasticizers .
by K. Yamada
SP-262—7
Compatibility of PC Superplasticizers with Slag-Blended Cements.
by M. Palacios, F. Puertas, M. M. Alonso, P. Bowen, and Y. F. Houst
SP-262—8
Polymer Physics and Superplasticizers.
by R.J. Flatt, I. Schober, E. Raphael, E. Lesniewska,and C. Plassard
SP-262—9
Performance of High Durability Concrete Using an Advanced Hybrid Admixture.
by K. Saito , M. Kinoshita, and H. Umehara
SP-262—10
Interactions Between Comb-Type Superplasticizers and Slag Cement Pastes.
by L. Regnaud, R. Alfani, A. Vichot, B. Le Rolland, and E. Borgarello
SP-262—11
The Role of Adsorption Energy in the Sulphate-Polycarboxylate Competition.
by R.J. Flatt, J. Zimmermann, C. Hampel, C. Kurz, I. Schober, L. Frunz, C. Plassard, and E. Lesniewska
SP-262—12
Effect of Polymer Structure on the Sulfate-Polycarboxylate Competition.
by J. Zimmermann, C. Hampel, C. Kurz, L. Frunz,and R.J. Flatt
SP-262—13
Study of the Application of Viscosity Reducing Type Superplasticizers for Low
Water-Binder Ratio Concrete.
by T. Matsumoto, T. Sugiyama, and A. Ohta
SP-262—14
Development of New Ultra High Early Strength Superplaticizer and Its Application.
By Q. Ran, J. Liu, C. Miao, Y. Mao, Y. Shang, and J. Sha
SP-262—15
Effects of High Accelerator Dosages on the Physical, Chemical, and Morphological Properties of a Hydrating Portland Cement Paste.
By C. Maltese, C. Pistolesi, D. Salvioni, A. Bravo, F. Cella, and T. Cerulli
SP-262—16
Correlation between Rheology of Superplasticized Fresh Mortars and Fresh Concretes
by J. Gołaszewski
SP-262—17
The Use of Phosphonates as Dispersants and Rheology Modifiers in Mortar and Concrete.
By M. Bellotto and F. Faini
SP-262—18
The Relationship between Retention Stability and Chemical Structure of PCE.
By F. Göller, S. Dikty, and D. Hamada
SP-262—19
Influence of Cellulose Ether Particle Size on Water Retention of Freshly-Mixed
Mortars.
By L. Patural, A. Govin, B. Ruot, O. Devès, and P. Grosseau
SP-262—20
Chemical Admixture System for Pervious Concrete.
By E. Koehler, M. Offenberg, J. Malone, and A. Jeknavorian
vii
SP-262—21
Influence of Fly Ashes on the Drying Shrinkage of Superplasticized Concretes
in the Presence of SRA.
By A. Borsoi, M. Collepardi, S. Collepardi, and R. Troli
SP-262—22
Pursuance of Workability Retention by New Superplasticizer.
By D. Hamada, K. Sagawa, Y. Tanisho, and H. Yamamuro
SP-262—23
Effect of Shrinkage-Reducing Admixtures on the Shrinkage and Hydration of
Cement-Based Materials.
By Z. Zhibin, X. Lingling, C. Liang, and T. Minshu
SP-262—24
Influence of Sample Preparation and Salt Concentration on the Superplasticizer Adsorption Quantification in Cement-Based Pore Solutions by Total Organic Carbon (TOC) Method.
By G. Albrecht and M. Vierle
SP-262—25
The Influence of Superplasticizers on the Dissolution of C3S.
By T. Sowoidnich and C. Rößler
SP-262—26
Influence of Mineral Admixtures on the Paste Fluidity of Cement with High
Aluminate Phase Content.
By E. Maruya, R. Ichinose, and E. Sakai
SP-262—27
Synthesis of Poly-(poly(ethylene glycol)methyl ether methacrylate-co-vinylphosphonic acid) and its Cement Dispersing Ability.
By I. Goc-Maciejewska, B. Chun, P.J. Sandberg, and P. Krzyżanowski
SP-262—28
Impact of Lignin-Based AE Water-Reducing Agent, and BNS- and PCE-Based Superplasticizers on the Properties of Hardened Concrete.
By M. Ohno, T. Sugiyama, T. Sugamata, and A. Ohta
SP-262—29
Impact of Polymer Architecture on Superplasticizer Efficiency.
By D. Platel
SP-262—30
Synergistic Effect of MgO-Based Expansive Agent and Shrinkage-Reducing Admixture on Compensating the Shrinkage of Cementitious Materials
by Z. Zhibin, X. Lingling, and T. Mingshu