SP-079: Fly Ash, Silica Fume, Slag and Other Mineral By-Products in Concrete

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SP-079: Fly Ash, Silica Fume, Slag and Other Mineral By-Products in Concrete

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PURCHASE INDIVIDUAL PAPERS

Description

It's a virtual encyclopedia of what mineral by-products do to concrete--and why. 1196 pages of essential information in 62 clearly defined, easy reference chapters. Key subjects include: effects on durability, fiber reinforced concrete, fly ash, pozzolans, sulfate resistance and concrete workability. With the rapidly increasing usage of by-product additives in concrete, every designer and builder needs the answers which these volumes provide.

Document Details

Publication Year: 2017

Pages: 0

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

ERRATA INFO

Any applicable errata are included with individual documents at the time of purchase. Errata are not included for collections or sets of documents such as the Manual of Concrete Practice (MCP). For a listing of and access to all product errata, visit the Errata page.

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