SP-132
Fly Ash, Silica Fume, Slag & Natural Pozzolans in Concrete
Proceedings 4th Intl. Conference, Turkey, 1992, 1681 pp.
$285.50

Published in two volumes...The first volume contains papers dealing with fly ash and natural pozzolans. The second volume consists of papers dealing with condensed silica fume and ferrous and non-ferrous slags.

Contents:
*Investigation into the Long-Term In-Situ Performance of

High Fly Ash Content Concrete Used for Structural

Applications, by M.R.H. Dunstan, M.D.A. Thomas,

J.B. Cripwell, and D.J. Harrison

*Influence of Residual Carbon in Fly Ash on Microstructure

and Strength Development of Mortars and Concretes,

by H. Hornain, F. Miersman, and J. Marchand

*Properties of High Strength Concrete Using "Classified Fly Ash",

by K. Ukita, M. Ishii, K. Yamamoto, K. Azuma, and K. Kohno

*The Effect of Curing on the Strength Development of Mortar

Containing High Volumes of Fly Ash, by L. Vandewalle and

F. Mortelmans

*Mineralogical Investigations of High-Lime Fly Ashes, by

M. Tokyay and F.H. Hubbard

*Properties of Mortar Containing Ultra-Fine Fly Ash Particles,

by E. Tazawa, A. Yonekura, K. Kawai, H. Kohata, and H. Teramoto

*Properties of Low-Heat Generating Concrete Containing Large

Volumes of Blast-Furnace Slag and Fly Ash, by K. Kanazawa,

K. Yamada, and S. Sogo

*Strength Characteristics of Flowable Mortars Containing Coal

Ash, by C.I. Lai

*Pore Structure and Chloride Permeability of Concretes Containing

Fly Ash, Blast-Furnace Slag and Silica Fume, by K. Torii and

M. Kawamura

*Deicer Salt Scaling Resistance of Roller-Compacted Concrete

Pavements Containing Fly Ash and Silica Fume, by J. Marchand,

M. Pigeon, J. Boisvert, H.L. Isabelle, and O. Houdusse

*Influence of Mechanical Strength and Curing Methods on Sea

Water Durability of Mortars Containing Fly Ashes and Slag,

by A.M. Paillère, G. Platret, P. Roussel, and J. Gawsewitch

*Resistance of Fly Ash Concrete to Freezing and Thawing,

by K.W. Nasser and P.S.H. Lai

*Combined Effect of Carbonation and Chloride on Corrosion

of Reinforcement in Fly Ash Concrete, by S. Nagataki and H. Ohga

*Influence of Fly Ash on Concrete Carbonation and Rebar

Corrosion, by C. Branca, R. Fratesi, G. Moriconi, and S. Simoncini

*Influence of Fly Ash and Moist Curing Time on Concrete

Permeability, by S.L. Marusin

*Investigations on the Sulfate Resistance of High-Lime Fly Ash

Incorporating PC-fa Mortars, by T.Y. Erdo?an, M. Tokyay, and

K. Ramyar

*Effects of Intergrinding Fly Ash on the Sulfate Resistance of

Fly Ash Concrete, by R.B. Freeman and R.L. Carrasquillo

*Strength and Fracture Energy of Concrete With and Without

Fly Ash Cured in Water at Different Constant Temperatures,

by J.J. Brooks and Z.D. Sikharulidze

*Concrete Incorporating High Volumes of ASTM Class F Fly

Ashes: Mechanical Properties and Resistance to Deicing

Salt Scaling and to Chloride-Ion Penetration, by A. Bilodeau

and V.M. Malhotra

*Study on Properties of Concrete with Ultra-Fine Particles

Produced from Fly Ash, by Y. Matsufuji, H. Kohata, K. Tagaya,

H. Teramoto, Y. Okawa, and S. Okazawa

*Performance of a High-Calcium Fly Ash in Roller-Compacted

Concrete, by J. Papayianni

*Utilization of Sorbent Slurry-Injection Modified Fly Ash, by R.C.

Joshi, J.O. Thomas, M. Mozes, and R. Mangal

*Concrete Incorporating a High Volume of ASTM Class C

Fly Ash with High Sulfate Content, by F. Gomà

*Granulation of Fly Ash Lightweight Aggegate and Accelerated

Curing Technology, by C.L. Hwang, R.Y. Lin, K.M. Hsu, and

J.F. Chan

*The Properties of Cements Containing Fly Ash Together with

Other Admixtures, by Z. Giergiczny

*Upgrading of PFA for Utilization in Concrete, by H.A.W.

Cornelissen and C.H. Gast

*A Comparative Study of Natural Pozzolans Used in Blended

Cement Production, by M.S. Akman, F. Mazlum, and F. Esenli

*Evaluation of Pozzolanic Activity of Rice Husk Ash, by

S. Sugita, M. Shoya, and H. Tokuda

*Strength of Mortar Made with Cement Containing Rice Husk

Ash and Cured in Sodium Sulphate Solution, by F. Mazlum

and M. Uyan

*The Mitigating Effect of Pozzolans on Alkali Silica Reactions,

by M. Geiker and N. Thaulow

*Evaluation of Testing Methods Used for Assessing the

Effectiveness of Mineral Admixtures in Suppressing Expansion

Due to Alkali-Aggregate Reaction, by M.A. Bérubé and

J. Duchesne

*Effect of Fly Ash on Alkali-Aggregate Reaction in Marine

Environment, by H. Ohga and S. Nagataki

*The Role of High Volume Fly Ash in Controlling Alkali-Aggregate

Reactivity, by S. Ramachandran, V. Ramakrishnan, and

D. Johnston

*Comparative Study of Natural Zeolites and Other Inorganic

Admixtures in Terms of Characterization and Properties of

Mortars, by Y. Kasai, K. Tobinai, E. Asakura, and N. Feng

*Microstructure of Cement-Based Grouts Containing Fly Ash and

Brine, by A.A. Al-Manaseer, M.D. Haug, and L.C. Wong

*Effect of Mineral Admixtures on the Cement Paste-Aggregate

Interface, by J.A. Larbi and J.M. Bijen

*Effects of the Use of Sulfitic Fly Ash in Mortars and Concretes,

by A. Carles-Gibergues and B. Husson

*Fly Ash Concrete Containing Petroleum Contaminated Soils,

by A.S. Ezeldin, D.A. Vaccari, and R.T. Mueller

*Concrete as an Engineered Alternative to Shallow Land Disposal

of Low Level Nuclear Waste: Overview, by J. Philip and J.R.

Clifton

*Pozzolanic Behavior of Thermally Activated Kaolin, by

J. Ambroise, S. Martin-Calle, and J. Péra

*Pozzolanic Activity of Calcined Red Mud, by J. Péra and

A.S. Momtazi

*The Action of Some Aggressive Solutions on Portland and

Calcined Laterite Blended Cement Concretes, by T. Marwan,

J. Péra, and J. Ambroise

*Minimization of Leaching of Shotcrete by Admixtures, by

R. Breitenbücher, R. Springenschmid, and H.W. Dorner

*The Reaction Mechanism of Blended Cements: A 29Si NMR

Study, by H.S. Pietersen, A.P.M. Kentgens, G.H. Nachtegaal,

W.S. Veeman, and J.M.J.M. Bijen

*Influence of Initial Curing on Pore Structure and Porosity of

Blended Cement Concretes, by P.S. Mangat and J.M. El-Khatib

*Silica Fume in Concrete -- An Overview, by K.H. Khayat and

P.C. Aïtcin

*High Strength Concrete Binders Part A: Reactivity and

Composition of Cement Pastes With and Without Condensed

Silica Fume, H. justnes, E.J. Sellevold, and G. Lundevall

*High Strength Concrete Binders Part B: Nonevaporable Water,

Self-Desiccation and Porosity of Cement Pastes With and

Without Condensed Silica Fume, by E.J. Sellevold and H. Justnes

*Some Moisture Properties of Silica Fume Mortar, by E. Atlassi

*Properties and Microstructure of High-Performance Concretes

Containing Silica Fume, Slag, and Fly Ash, by M. Baalbaki, S.L.

Sarker, P.C. Aïtcin, and H. Isabelle

*Influence of Different Types of Silica Fume Having Varying Silica

Content on the Microstructure and Properties of Concrete, by V.G.

Batrakov, S.S. Kaprielov, and A.V. Sheinfeld

*The Influence of Mix Composition on Mechanical Properties of

High- Performance Silica-Fume Concrete, by F. de Larrard and

R. Le Roy

*Prediction of Strength Development for Silica Fume Concrete,

by M. Sandvik and O.E. Gjorv

*Effect of Mixing Method on Mechanical Properties and Pore

Structure of Ultra High-Strength Concrete, by M. Kakizaki,

H. Edahiro, T. Tochigi, and T. Niki

*Long-Term Strength Development of Silica Fume Concrete,

by G.G. Carette and V.M. Malhotra

*Heat Curing of Concrete With and Without Condensed Silica

Fume -- Effect of Early Temperature History on Compressive

Strength, by P.H. Laamanen, K. Johansen, B.P. Kyltveit, and

E.J. Sellevold

*High Strength Concrete Containing Silica Fume -- Impact of

Aggregate Type on Compressive Strength and E-Modulus,

by J. Lindgård and S. Smeplass

*The Effect of Variable Curing Conditions on the Properties of

Mortars with Silica Fume, by J. Ma?olepszy and J. Deja

*Compressive Strength of Silica Fume Concrete at Higher

Temperatures, by T. Kanda, F. Sakuramoto, and K. Suzuki

*Effect of Chloride-Sulfate Ions on Reinforcement Corrosion

and Sulfate Deterioration in Blended Cements, by

O.S.B. Al-Amoudi, Rasheeduzzafar, S.N. Abduljauwad, and

M. Maslehuddin

*Plastic, Mechanical, Corrosion, and Chemical Resistance

Properties of Silica Fume (Microsilica) Concretes, by N.S. Berke,

M.P. Dallaire, and M.C. Hicks

*Effect of Silica Fume Addition on the Durability of Alkali-Resistant

Glass Fibre in Cement Matrices, by V.T. Y?lmaz and F.P. Glasser

*Durability of High Early Strength Silica Fume Concretes

Subjected to Accelerated and Normal Curing, by C.D. Johnston

*Corrosion Resistance of Normal and Silica Fume-Modified

Mortars Made from Different Types of Cement, by J. Madej

*Fracture and Adhesion Properties of a Carbon Fiber-Cementitious

Composite with Silica Fume Variability in the Matrix, by

A. Di Tommaso, G. Mantegazza, and A.M. Penna

*Fatigue of Reinforced Silica Fume Concrete Beam under the

Environment of Water or Chloride Solution, by N. Takagi,

M. Ikeda, and T. Kojima

*Wet-Mix Silica Fume Shotcrete: Effect of Silica Fume Form,

by D.R. Morgan and J. Wolsiefer, Sr.

*Silica Fume-Polymer Mortars for Rehabilitation of Bridge Decks,

by T.A. Bürge

*Concrete Bridge-Deck Overlays Containing Silica Fume,

by C. Ozyildirim

*The Performance of Portland and Blast Furnace Slag Cement

Concretes in Marine Environments, by G.J. Osborne

*Influence of Slag Type and Replacement Level on Strength,

Elasticity, Shrinkage, and Creep of Concrete, by J.J. Brooks,

P.J. Wainwright, and M. Boukendakji

*Effect of Slag Fineness on the Development of Concrete

Strength and Microstructure, by N. Nakamura, M. Sakai,

and R.N. Swamy

*Properties of Granulated Blast-Furnace Slag Cement Concrete,

by K. Sakai, H. Watanabe, M. Suzuki, and K. Hamazaki

*Properties of Super Low Heat Cement Incorporating Large

Amounts of Ground Granulated Blast Furnace Slag of High

Fineness, by T. Tomisawa, T. Chikada, and Y. Nagao

*Study on the Effects of Blast-Furnace Slag on Properties of

No-Slump Concrete Mixtures, by K. Togawa and J. Nakamoto

*Properties of Concrete Using Newly Developed Low-Heat

Cements and Experiments with Mass Concrete Model, by

S. Nagataki, T. Sone, and A. Matsui

*Utilization of Blast-Furnace Slag and Silica Fume for Controlling

Temperature Rise in High-Strength Concrete, by M. Yurugi,

T. Mizobuchi, and T. Terauchi

*High-Strength Concrete for Wall Foundation Using Ternary

Blended Cement with Intermixture of Blast-Furnace Slag and

Fly Ash, by S. Kashima, N. Furuya, and R. Yamaoka

*Chloride-Ion Attack on Low Water-Cement Ratio Pastes

Containing Silica Fume, by R. Gagné, M. Pigeon, E. Revertégat,

and P.C. Aïtcin

*Degradation of Normal Portland and Slag Cement Concrete under

Load Due to Reinforcement Corrosion, by K.E. Philipose,

J.J. Beaudoin, and R.F. Feldman

*Fatigue of Concrete Composed of Blast Furnace Slag or Silica

Fume under Submerged Conditions, by S. Ozaki and N. Sugata

*Sulfate Resistance of Mortars Containing Ground Granulated

Blast-Furnace Slag with Variable Alumina Content, by

J.P.H. Frearson and D.D. Higgins

*Measurement of Corrosion of Steel Reinforcement under High

Chloride Conditions, by D. Baweja, H. Roper, S Guirguis, and

V. Sirivivatnanon

*Resistance to Freezing and Thawing and Chloride Diffusion of

Anti-Washout Underwater Concrete Containing Blast-Furnace

Slag, by K. Fukudome, K. Miyano, H. Taniguchi, and T. Kita

*Use of Blast-Furnace Slag Cements in the Boreholes in Salt Beds,

by W. Brylicki, J. Ma?olepszy, and S. Stryczek

*Application of High Slag and Fly Ash, Low-Heat Cement to

Antiwashout Underwater Concrete, by S. Kashima, M. Sakamoto,

S. Okada, T. Iho, and Y. Nakagawa

*Studies on Marine Epilithic Organisms to No-Fines Concrete

Using Slag Cement and Portland Cement with Silica Fume,

by M. Tamai and Y. Nishiwaki

*Activation of Slag in Gypsumless Portland Cements, by

J. Hrazdira

*Modulus of Elasticity and Drying Shrinkage of High-Strength

Concrete Containing Silica Fume, by C. Alfes