Computation of Modulus of Elasticity of High Strength Concrete using Silica Fume

Authors

  • V. S. Sethuraman Research Scholar, Department of Civil & Structural Engineering, Annamalai University, Annamalainagar, Tamilnadu
  • K. Suguna

Keywords:

Modulus of elasticity, High-strength concrete, Compressive strength, Axial compression, Compressometer, Stress-strain, Initial tangent modulus

Abstract

The modulus of elasticity of concrete is a very important parameter reflecting the ability of concrete to deform elastically. In order to utilize the full compressive strength, the structures using high strength concrete tend to be slimmer and require a higher elastic modulus to maintain its stiffness. The mechanical properties of HSC are mostly dependent on the properties and proportions of binders and aggregates. Therefore, knowledge of the modulus of elasticity of high strength concrete is very important in avoiding excessive deformation providing satisfactory serviceability and avoiding the most cost-effective designs. This paper presents the results of experimental study of modulus of elasticity of M60 grade concrete using standard cylinder specimens tested with compressometer under axial compression. Based on the test results, it is observed that the stress-strain behaviour exhibits non-linear variation from which the initial tangent modulus is plotted to arrive at modulus of elasticity values.

References

IS: 456-2000, “Indian Standard Code of Practice for Plain and Reinforced Concreteâ€, ISI, New Delhi.

IS: 516-2004, “Methods for Tests for Strength of Concreteâ€, ISI, New Delhi.

IS: 10262-1982, “Recommended guidelines for concrete mix designâ€, ISI, New Delhi.

IS: 383-1970, “Indian standards specification for coarse and fine aggregates from natural sources for concreteâ€, Bureau of Indian Standards, New Delhi

“ACI 363 R State-of-the-art Report on High Strength Concreteâ€, January 1-1992.

ACI 211.4R-93Guide for Selecting Proportions for High Strength Concrete with Portland Cement and Fly Ashâ€, 1998.

ACI (2010). "Report on high strength concrete." Report ACI 363R-10, Farmington Hills, MI, American Concrete Institute.

ACI (2011). "Building code requirements for structural concrete and commentary." Report ACI 318-11, American Concrete Institute, USA.

BS 1881: Part 121:1983,†Testing concrete Method for determination of static modulus of elasticity in compressionâ€.

ASTM C 469-94†Standard Test Method for Static Modulus of Elasticity and Poisson’s Ratio of Concrete in Compressionâ€

Shetty, M. S., “Concrete Technology Theory and Practicesâ€, Reprint 2008.

Santhakumar, A. R., “Concrete Technologyâ€.

Yaqub, M. and Bukhari, Imran, “Development of Mix Design for High Strength Concreteâ€, 31st conference on OUR WORLD IN CONCRETE AND STRUCTURE, 16-17 August 2006, Singapore

Carrasquillo, R. L., Nilson, A. H., and Slate, F. O. (1981). "Properties of high-strength concrete subject to short-term loads." Journal of the American Concrete Institute, 78(3), 171-178.

Logan, A., Choi, W., Mirmiran, A., Rizkalla, S., and Zia, P. (2009). "Short-term mechanical properties of high-strength concrete." ACI Materials Journal, 106(5), 413.

Perenchio, W. F., and Klieger, P. (1978). "Some physical properties of high-strength concrete." Portland Cement Association.

Tomosawa, F., Noguchi, T. and Onoyama, K. “Investigation of Fundamental Mechanical Properties of High-strength Concreteâ€, Summaries of Technical Papers of Annual Meeting of Architectural Institute of Japan, pp.497-498, October 1990.

Sanjay Srivastava, Jain,S.S., Chauhan, M.P.S., “High Strength Concrete of M60 Grade for Highway Pavements for Heavy Vehiclesâ€, International Journal of Scientific and Research Publications, Volume 4, November 2014.

Debabrata Pradhan, Dutta, D., Partha Ghosh, “Combinational Study of Mineral Admixture and Super Plasticizer in Usual Concreteâ€, International Journal of Computational Engineering Research, Vol.04, January 2014.

Muhannad Ismeik, “ Effect of Mineral Admixtures on Mechanical Properties of High Strength Concrete Made with Locally Available Materialsâ€, Jordan Journal of Civil Engineering, Volume 3, 2009

Downloads

Published

2016-02-15

How to Cite

Computation of Modulus of Elasticity of High Strength Concrete using Silica Fume. (2016). Asian Journal of Applied Sciences, 4(1). https://ajouronline.com/index.php/AJAS/article/view/3520

Similar Articles

41-50 of 291

You may also start an advanced similarity search for this article.