Table of Contents
- Pozzolanic and Cementitious Byproducts as Mineral
Admixtures for--A Critical Review, by P. Kumar Mehta
- Twenty-Five Years' Experience Using Fly Ash in Concrete,
by Joseph F. Lamond
- Durability of Fly Ash Concrete, by Val R. Sturrup, R. Doug
Hooton, and T.Gerry Clendenning
- Shrinkage and Creep of Mass Concrete Containing Fly Ash,
by Takeshi Yamato and Hideaki Sugita
- Effect of Fly Ash on the Air-Void Stability of Concrete, by
Steven Gebler and Paul Klieger
- The Use of Fly Ash in Concrete--Australian Experience, by
A. Samarin, R. L. Munn, and J. B. Ashby
- Studies into the Use of Fly Ash in Concrete for Water Dam
Structures, by Veljko Korac and Velimir Ukraincik
- Review of International Specifications for Use of Fly Ash in
Portland Cement Concrete, by Oscar E. Manz
- Review of Specifications for Additions for Use in Concrete,
by Eddie Rossouw and Japie Kruger
- Pozzolanic Property of Natural and Synthetic Pozzolans:
A Comparative Study, by S. Chatterji, Mario Collepardi, and
Giacomo Moriconi
- Some Properties of Pozzolanic Cements Containing Fly Ashes,
by U. Costa and F. Massazza
- Cements Users' Expectations with Regard to Blended Cements,
by Bryant Mather
- Mix Proportioning of Concrete with PFA: A Critical Review, by
John G. L. Munday, Lean T. Ong, and Ravindra K. Dhir
- Influence of Fly Ash Upon the Workability and Early Strength of
Concrete, by D. W. Hobbs
- Study of a Class C Fly Ash Concrete, by Robert L. Yuan and
James E. Cook
- High Lime Fly Ash as a Cementing Agent, by Michael G.
Sullentrup and James W. Baldwin, Jr.
- Carbonation of Concrete Incorporating Fly Ash or a Chemical
Admixture, by D.W.S. Ho and R. K. Lewis
- Roller Compacted High Fly Ash Concrete (Geocrete), by
R. C. Joshi and G. S. Natt
- Studies on the Desiccation and Carbonation of Systems
Containing Portland Cement and Fly Ash, by F. G. Buttler,
M. H. Decter, and G. R. Smith
- Properties of Concrete Made with Sulfate Resisting Cement
and Fly Ash, by Karim W. Nasser and H. M. Marzouk
- Microstructures and Properties of Granulated Slag-Portland
Cement Blends at Normal and Elevated Temperatures, by
D. M. Roy and K. M. Parker
- Significance of Porosity Measurements on Blended Cement
Performance, by R. F. Feldman
- Air Permeability and Carbonation of Blended Cement Mortars,
by Yoshio Kasai, I. Matsui, Y. Fukushima, and H. Kamohara
- Comparison of the Resistance to Sulfate Solutions and to Sea
Water of Different Portland Cements With or Without Secondary
Constituents, by Robert Guyot, Roger Ranc, and Andre Varizat
- Road-Building Concretes Incorporating Fly-Ash or Slag, by
G. Bordonado and J. L. Nissoux
- Fly Ash Aggregates, by J. Bijen
- Effects of Admixtures on Portland Cement Concretes
Incorporating Blast Furnace Slag and Fly Ash, by Noel P.
Mailvaganam, R. S. Bhagrath, and K. L. Shaw
- Strength of Concrete Containing Secondary Cementing Materials,
by Birger Warris
- Engineering Properties of Concrete Composite Materials
Incorporating Fly Ash and Steel Fibers, by R. N. Swamy, S.
A. R. Ali, and D. D.Theodorakopoulos
- Permeability of Blended Cement Concretes, by Robert
F. M. Bakker
- The Mechanical Properties of Polymer Modified OFC/ PFA Pastes,
by H. Olmez, D. Dollimore, G. A. Gamlen, and R. J. Mangabhai
- Use of Silica Fume in Concrete, by P. Jahren
- Mechanism of Hydration of Condensed Silica Fume in
Calcium Hydroxide Solutions, by Michael W. Grutzeck, Scott
Atkinson, and Della M. Roy
- Influence of Condensed Silica Fume and Fly Ash on the Heat
Evolution in Cement Pastes, by I. Meland
- Condensed Silica Fume (Microsilica) in Concrete: Water
Demand and Strength Development, by E. J. Sellevold and
F. F. Radjy
- Durability of Concrete Containing Condensed Silica Fume,
by Odd. E. Gjorv
- Freezing and Thawing Resistance of Condensed Silica Fume
(Microsilica) Concrete Exposed to Deicing Chemicals, by
Eigil V. Sorensen
- Silica Concrete Protection Against Corrosion of Embedded
Steel, by Oystein Vennesland and Odd E. Gjorv
- High Strength Lightweight Concrete With Condensed Silica
Fume, by Theodor A. Burge
- Development of a Low Heat of Hydration Blended Cement, by
S. Lessard, P. C. Aitcin, and Micheline Regourd
- Early-Age Strength Development of Concrete Incorporating
Fly Ash and Condensed Silica Fume, by G. Carette and
V. M. Malhotra
- Electrochemical Behaviour of Steel Dense Silica-Cement Mortar,
by Carolyn M. Preece, Hans Arup, and Thomas Frolund
- Performance Characteristics of Fiber Reinforced Condensed
Silica Fume Concretes, by V. Ramakrishnan and V. Srinivasan
- Ready-Mixed Concrete Incorporating Condensed Silica Fume,
by J. I. Skrastins and N. G. Zoldners
- Properties and Behaviour of Lime-Rice Husk Ash Cements, by
David J. Cook and P. Suwanvitaya
- Use of Condensed Silica Fume as Filler in Blended Cements,
by M. Regourd, B. Mortureux, and H. Hornain
- Production of Granulated Blast Furnace Slag at Sparrows Point,
and the Workability and Strength Potential of Concrete
Incorporating the Slag, by J.W. Meusel and J. H. Rose
- Strength and Durability Characteristics of Concrete Incorporating
a Pelletized Blast Furnace Slag, by V. M. Malhotra
- Freezing-Thaw Resistance of Concrete Containing Blast-Furnace
Slag, Fly Ash or Condensed Silica Fume, by Jorma Virtanen
- Glass Content Determination and Strength Development
Predictions for Vitrified Blast Furnace Slag, by R. Doug Hooton
and John J. Emery
- Structure of Hydrated Glassy Blastfurnace Slag in Concrete, by
Hirobumi Tanaka, Yoichi Totani, and Yutaka Saito
- Freezing and Thawing Durability of Three Cements With Various
Granulated Blast Furnace Slag Contents, by Michel Pigeon and
Micheline Regourd
- Resistance to Freezing and Thawing of Concrete Using Ground
Blast-Furnace Slag, by Jiro Murata, Michio Kawaski,
Takeshi Sakai, Tadashi Kawai
- Strength and Durability of Slag-Gypsum Cement Concrete, by
Taketo Uomoto and Kazusuke Kobayashi
- Effect of the Blastfurnace Slag content on the Frost Resistance
of Neo-ferrite Cement Mortar, by Kazunobu Hirai
- Activation of Blast Furnace Slag by Some Inorganic Materials,
by J. Metso and E. Kajaus
- Relation Between Hydration of Slag Sand and Mechanical
Properties of Concrete, by Shigeyoshi Nagataki, Makoto Takada,
and Etsuro Sakai
- Characterization of a Copper Slag Used in Mine Fill Operations,
by H. Roper, F. Kam, and G. J. Auld
- Use of Blast Furnace Slag as Mining Fill, by J. Metso, S. Makinen,
and E. Kajaus
- Applicability of Basic Oxygen Furnace Slag as a Concrete
Aggregate, by Mitsunori Kawamura, Kazuyuki Torii,
Shigemasa Hasaba, Nobuhiro Nicho, and Kiyotoshi Oda
- Pumpability of Blast-Furnace Slag Aggregate Concrete, by
Hideo Kasami, Tadashi Ikeda, Shinichi Numata, and Hisamitsu
Harada
- Use of Fly Ash, Blast-Furnace Slag and Condensed Silica Fume
for Concrete Block Stripped Immediately After Molding, by
Kiyoshi Kohno, Katsunori Horii, and Hiroo Fukushima