Civil Engineering Reference
In-Depth Information
ACI Committee 232,
Use of Fly Ash in Concrete,
ACI 232.2R-
96, American Concrete Institute, Farmington Hills,
Michigan, 1996, 34 pages.
American Concrete Institute, Farmington Hills, Michigan,
May-June 1988, pages 148 to 157.
Detwiler, Rachel J., “Controlling the Strength Gain of Fly
Ash Concrete at Low Temperature,”
Concrete Technology
Today,
CT003
, Portland Cement Association,
http://www.
portcement.org/pdf_files/CT003.pdf
, 2000, pages 3 to 5.
Detwiler, Rachel J.,
Documentation of Procedures for PCA's
ASR Guide Specification,
SN 2407, Portland Cement Associ-
ation, 2002.
ACI Committee 232,
Use of Raw or Processed Natural
Pozzolans in Concrete,
ACI 232.1R-00, American Concrete
Institute, Farmington Hills, Michigan, 2000, 24 pages.
ACI Committee 233,
Ground Granulated Blast-Furnace Slag
as a Cementitious Constituent in Concrete,
ACI 233R-95,
American Concrete Institute, Farmington Hills, Michigan,
1995, 18 pages.
Detwiler, Rachel J.; Bhatty, Javed I.; and Bhattacharja,
Sankar,
Supplementary Cementing Materials for Use in
Blended Cements,
Research and Development Bulletin
RD112
, Portland Cement Association, 1996, 108 pages.
ACI Committee 234,
Guide for the Use of Silica Fume in
Concrete,
ACI 234R-96, American Concrete Institute,
Farmington Hill, Michigan, 1996, 51 pages.
Barger, Gregory S.; Lukkarila, Mark R.; Martin, David L.;
Lane, Steven B.; Hansen, Eric R.; Ross, Matt W.; and
Thompson, Jimmie L., “Evaluation of a Blended Cement
and a Mineral Admixture Containing Calcined Clay
Natural Pozzolan for High-Performance Concrete,“
Proceedings of the Sixth International Purdue Conference on
Concrete Pavement Design and Materials for High Performance,
Purdue University, West Lafayette, Indiana, 1997, 21 pages.
Farny, J. A., and Kosmatka, S. H.,
Diagnosis and Control of
Alkali-Aggregate Reactivity,
IS413
, Portland Cement Asso-
ciation, 1997, 24 pages.
Gaynor, R. D., and Mullarky, J. I., “Survey: Use of Fly Ash
in Ready-Mixed Concrete,”
NRMCA Technical Information
Letter No. 426,
National Ready Mixed Concrete Associa-
tion, Silver Spring, Maryland, June 1985.
Gebler, S. H., and Klieger, P.,
Effect of Fly Ash on the Air-Void
Stability of Concrete,
Research and Development Bulletin
RD085
, Portland Cement Association,
http://www.port
cement.org/pdf_files/RD085.pdf
, 1983, 40 pages.
Bhatty, M. S. Y., “Mechanism of Pozzolanic Reactions and
Control of Alkali-Aggregate Expansion,”
Cement, Concrete,
and Aggregates,
American Society for Testing and Materials,
West Conshohocken, Pennsylvania. Winter 1985, pages 69
to 77.
Gebler, Steven H., and Klieger, Paul,
Effect of Fly Ash on
Some of the Physical Properties of Concrete,
Research and De-
velopment Bulletin
RD089
, Portland Cement Association,
http://www.portcement.org/pdf_files/RD089.pdf
, 1986,
48 pages.
Bhatty, M. S. Y., and Greening, N. R., “Some Long Time
Studies of Blended Cements with Emphasis on Alkali-
Aggregate Reaction,”
7th International Conference on Alkali-
Aggregate Reaction,
1986.
Gebler, Steven H., and Klieger, Paul,
Effect of Fly Ash on the
Durability of Air-Entrained Concrete
, Research and Develop-
ment Bulletin
RD090
, Portland Cement Association,
http://
www.portcement.org/pdf_files/RD090.pdf
,
1986a, 44 pages.
Buck, Alan D., and Mather, Katharine,
Methods for
Controlling Effects of Alkali-Silica Reaction,
Technical Report
SL-87-6, Waterways Experiment Station, U.S. Army Corps
of Engineers, Vicksburg, Mississippi, 1987.
Helmuth, Richard A.,
Fly Ash in Cement and Concrete,
SP040T, Portland Cement Association, 1987, 203 pages.
Burg, R. G., and Ost, B. W.,
Engineering Properties of
Commercially Available High-Strength Concretes (Including
Three-Year Data),
Research and Development Bulletin
RD104
, Portland Cement Association, 1994, 62 pages.
Hogan, F. J., and Meusel, J. W., “Evaluation for Durability
and Strength Development of a Ground Granulated Blast
Furnace Slag,”
Cement, Concrete, and Aggregates,
Vol. 3, No. 1,
American Society for Testing and Materials, West
Conshohocken, Pennsylvania, Summer 1981, pages 40 to 52.
Campbell, D. H.; Sturm, R. D.; and Kosmatka, S. H.,
“Detecting Carbonation,”
Concrete Technology Today,
PL911
;
Portland Cement Association,
http://www.portcement.
org/pdf_files/PL911.pdf
, March 1991, pages 1 to 5.
Kerkhoff, Beatrix,
Effect of Substances on Concrete and Guide
to Protective Treatments,
IS001
, Portland Cement Asso-
ciation, 2001, 36 pages.
Carette, G. G., and Malhotra, V. M., “Mechanical Properties,
Durability, and Drying Shrinkage of Portland Cement
Concrete Incorporating Silica Fume,”
Cement, Concrete, and
Aggregates,
American Society for Testing and Materials,
West Conshohocken, Pennsylvania, Summer 1983.
Klieger, Paul, and Isberner, Albert W.,
Laboratory Studies of
Blended Cements—Portland Blast-Furnace Slag Cements,
Research Department Bulletin
RX218
, Portland Cement
Association,
http://www.portcement.org/pdf_files/
RX218.pdf
, 1967.
Cohen, Menashi, D., and Bentur, Arnon, “Durability of
Portland Cement-Silica Fume Pastes in Magnesium Sulfate
and Sodium Sulfate Solutions,”
ACI Materials Journal,
Klieger, Paul, and Perenchio, William F.,
Laboratory Studies
of Blended Cement: Portland-Pozzolan Cements,
Research and
