Transcript
ACI 211.1-91
This document has been approved for use by agencies of the Department of Defense and for listing in the DaD Index of Specifications and Standards.
(Reapproved
2002)
Standard Practice for Selecting Proportions for Normal, Heavyweight, and Mass Concrete (ACI 211.1-91) Reported by ACI Committee 211 Jack R. Prestrera, Secretary
Donald E. Dixon, Chairman
George R. U. Burgt Chairman, Subcommittee
Gary R. Masst Chairman David A. Crocker Luis H. Diaz Donald E. Dixont Calvin L. Dodl Thomas A. Fox George W. Hollon Tarif M. Jaber Stephen M. Lane Stanley H. Lee
Edward A. Abdun-Nurt William L. Barringert Stanley G. Barton Leonard W. Bellt James E. Bennett, Jr. J. Floyd Best Ramon L. Carrasquil10 Jame. E. Cookt Russell A. Cook
Richard C. Meiningert James E. Olive non James S. Pierce Sandor Popovics Steven A',Ragan Jere H. Reset Donald L. Schlegel James M. Shilstone, Sr. Paul R. Stodola
Describes, with examples, two methods for selecting and adjusting proportions for normal weight concrete, both with and without chemical admixtures, pazzolanic, and slag materials. One method is based on an estimated weight of the concrete per unit volume; the other is based on cakulations of the absolute volume occupied by the concrete ingredients. The procedures take into consideration the requirements for placeability, consistency, strength, and durability. Example cakulations are shown for both methods, including adjustments based on the characteristics of the first trial batch. The proportioning of heavyweight concrete for such purposes as radiation shielding and bridge counterweight structures is described in an appendix. This appendix uses the absolute volume method, which is generally accepted and is more convenient for heavyweight concrete. There is also an appendix that provides information on the proportioning of mass concrete. The absolute volume method is used because of its general acceptance.
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George B. Southworth Alfred B. Spamer Paul R. Stodola Michael A. Taylor Stanely J. Vigalitte William H. Voelker Jack W. Weber" Dean J. White II Milton H. Willis, Jr. Francis C. 'Nilson Robert Yuan
Mark A. Mearing Richard C. Meininger" Richard W. Narva Leo P. Nicholson James E. Olivenon James S. Pierce Sandor Popovics" Steven A. Ragan Harry C. Robinson Jere H. Rose" James A. Scherocman James M. Shilstone"
David A. Crocker Kenneth W. Day Calvin L. Dodl Thomas A. Fox Donald A. Graham George W. Hollon William W. Hotaling, Jr. Robert S. Jenkins Paul K1ieger Frank J. Lahm Slantey H. Lee Gary R. Mass"
Edward A. Abdun-Nur" Stanley G. Barton Leonard W. Bell" Stanley J. BIas, Jr. Ramon L. Carrasquillo Peggy M. Carrasquillo Alan C. Carter Martyn T. Conrey James E. Cook Russel A. Cook" William A. Cordon Wayne J. Costa
George R. U. Burg," Chairman, Subcommittee
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William S. Sypher Ava Szypula Jimmie L. Thompsont Stanley J. Virgalitte Woodward L. Vogt Jack W. Weber Dean J. White, III Marshall S. Williams John R. Wilsont
Chapter 4-Effects of chemical admixtures, pozzolanlc, and other materials on concrete proportions, p.211.1-4
andallresponsibilityforthe statedprinciples.TheInstituteshallnO!be liableforanylossor
• Members of Subcomminee A who prepared Ihis standard. The committee acknowledges tbe significant coolribution of William L. Barringer to tbe work of4be subcomminee. t Members of Subcomminee A wbo prepared tbe 1991 revision. This standard supersedes ACI 211.1-89. It was revised by the Expedited Standardization procedure, effective Nov. 1. 1991. This revisionincorporates provisions related 10 tbe use of tbe mineral admixture silica fume in conaele. Chapler 4 bas been expanded to caver in detail the effects of the use of silica fume on tbe proportions of conaele mixtures. Editorial cbanges bave also been made in Chapters 2 through 4, and Chapters 6 through 8. Copyright