Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-25T15:45:18.908Z Has data issue: false hasContentIssue false
  • English
  • Français

Properties of High Strength Concrete for Structural Design

Published online by Cambridge University Press:  22 February 2011

Shuaib H. Ahmad  and
S. P. Shah
Shuaib H. Ahmad
Affiliation:
Shuaib H. Ahmad, Civil Engineering, North Carolina State University, Box 7908, Raleigh, NC 27695–7908
S. P. Shah
Affiliation:
S. P. Shah, Civil Engineering, Northwestern University, Evanston, Illinois 60201
Get access

Extract

The current ultimate strength design practice is based on experimental information obtained from concretes of compressive strengths in the range of 21 to 42 Mpa. For developing a satisfactory procedure for design of structures using higher strength concretes, additional considerations, and validation or modification of existing strength design methods may be necessary.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 42: Symposium L – Very High Strength Cement-Based Materials , 1984 , 169
Copyright
Copyright © Materials Research Society 1985

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

(1) ACI Committee 363 Proceedings, ACI Journal, 81, 4 (July–August 1984).Google Scholar
(2) Nilson, A. H. and Slate, F. O., Second Progress Report, NSF Grant ENG 7805124, School of Civil and Environmental Engineering, Cornell University, Ithaca, New York (1979).Google Scholar
(3) Wang, P. T., P.Shah, S., and Naaman, A. E., ACI Journal, Proc. 75, 11 (November 1978).Google Scholar
(4) Kaar, P. H., Hanson, N. W., and Capell, H. T., Research and Development, Portland Cement Association, Skokie, Illinois, 1977.Google Scholar
(5) Ahmad, S. H., Ph. D.Thesis, University of Illinois at Chicago Circle (March 1981).Google Scholar
(6) Gred Wischers, Betontechnische Berichte (Beton-verlag Gmbh, Dusseldorf, Germany, 1979), pp. 3156.Google Scholar
(7) Shah, S. P., Fafitis, A., and Arnold, R., ASCE, 109, ST7, 16951710 (July 1983).10.1061/(ASCE)0733-9445(1983)109:7(1695)Google Scholar
(8) Ahmad, S. H., and Shah, S. P., Progress Report, National Science Foundation Grant PFR 78–22878, University of Illinois at Chicago Circle, August 1979; also, Nonlinear Design of Concrete Structures, University of Waterloo Press, 222–230 (1980).Google Scholar
(9) Shah, S. P., Gokos, U. N., and Ansari, F., Cement, Concrete and Aggregates. CCAGDP, 3 (Summer 1981).Google Scholar
(10) Sargin, M., Study No. 4, Solid Mechanics Division, University of Waterloo, Ontario, Canada (1971).Google Scholar
(11) Ahmad, S. H., and Shah, S. P., ACI Journal, Proc. 79, 6 (November-December 1982).Google Scholar
(12) Building Code Requirements for Reinforced Concrete, ACI Journal, 318–83.Google Scholar
(13) Carrasquillo, R. L., Slate, F. O., and Nilson, A. H., ACI Journal, 78, 3 (May-June 1981).Google Scholar
(14) Jobse, H. J., and Moustafa, E. S., PCI Journal, 29, 3 (May-June 1984).10.15554/pcij.05011984.44.73Google Scholar
(15) Ahmad, S. H., and Shah, S. P., ASCE, 108, ST4 (April 1982).Google Scholar
(16) Walker, Stanton, and Bloem, Delmar L., ACI Journal, Proc. ASTM, 28 (September 1960).Google Scholar
(17) Grieb, W. E., and Werner, G., Public Roads, 32, 5 (December 1962).Google Scholar
(18) Houk, Design Memorandum No. 16, US Army Engineer District, Walla, 1965.Google Scholar
(19) Ahmad, S. H., Research Report No. CE 001–82, Department of Civil Engineering, North Carolina State University, Raleigh, 1982.Google Scholar
(20) Dewar, J. D., Technical Report No. 42.377, Cement and Concrete Association, Wexham Springs, March 1964.Google Scholar
(21) Jerome, M. R., Proc. 81, 2, March-April 1984.Google Scholar
(22) Gopalaratham, V. S., and Shah, S. P., Research Report Technological Institute, Northwestern University, June 1984.Google Scholar
(23) Carrasquillo, R. L., Slate, F. O., and Nilson, A. H., ACI Journal, 78, 3 (May-June 1981).Google Scholar
(24) Perenchio, W. F., and Klieger, P., Research and Development Bulletin No. Rd056.01T, Portland, Cement Association, Skokie, 1978.Google Scholar
(25) Ahmad, S. H., Shah, S. P., and Khaloo, A. R., to be published in Journal ASCE (Structural Division).Google Scholar
(26) Wastein, D., ACI Journal, Proc. 49, 8 (April 1953).Google Scholar
(27) Mainstone, R. J., Materiaux et Constructions, 8, 44, (March-April 1975).Google Scholar
(28) Atchley, B. L., and Furr, H. L., ACI Journal, Proc. 64 (November 1967).Google Scholar
(29) Hughes, B. P., and Gregory, R., Magazine of Concrete Research, London, 24, 78 (March 1972).Google Scholar
(30) Bresler, B., and Berterjo, V. V., Second Canadian Conference on Earthquake Engineering, Macmaster University, Hamilton, Ontario, Canada, June 1975.Google Scholar
(31) Dilger, W. H., Koch, R., Andowalczyk, R., ACT Journal, Proc. 81, 1 (January-February 1984).Google Scholar
(32) Ahmad, S. H., and Shah, S. P., to be published in ACI Journal.Google Scholar
(33) Gopalaratham, V. S., P.Shah, S., and John, R., Experimental Mechanics, 24, 2 (June 1984).Google Scholar
(34) Khaloo, A. R., Ph. D. Thesis, to be submitted to Department of Civil Engineering, North Carolina State University, Raleigh, NC.Google Scholar