Investigating the Effects of Liquid Nitrogen on Concrete Properties in Hot Weather Concreting

Document Type : Original Article

Authors

Faculty of Civil Engineering, Sahand university of Technology, Tabriz, Iran

Abstract

Concrete structures are always affected by environmental conditions, and hot weather condition during mixing and casting impressively affect the performance of concrete. Concrete producers have been using different methods of reducing the temperature of concrete such as liquid nitrogen through direct injection of it into the drums of concrete trucks. Liquid nitrogen with having temperature of -196°C provide accurate temperature control and is not limited by the water-cement ratio as in the case of chilled water or ice. The purpose of this research was to investigate the effects of liquid nitrogen on concrete properties such as slump, setting time, compressive strength, tensile strength and flexural strength with two different curing methods. In this research, three mixtures were prepared: control, hot and LN-cooled. The temperature in control mixture was considered to be 27°C. Hot mixture which was made from materials stored for 72 hours at the desired temperature (50°C) to simulate hot weather condition, and the temperature in this mixture was obtained 40°C. The process in preparation of the LN-cooled mixture was the same with the hot mixture with the difference that, the temperature of the LN-cooled mixture was lowered to the control mixture (27°C). The results indicate that the liquid nitrogen improved the properties of concrete in hot weather and additionally the results show that the properties of concrete are relatively unaffected when cooled with liquid nitrogen to room temperature. Finally based on findings in this research, liquid nitrogen is an appropriate option in hot weather concreting.

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References

[1] Rao, M. (2016) Concrete In Hot Weather Conditions-Challenges-Precautions. Science and Research 5(1).
[2] Gajda, J., Kaufman, A. L., and Sumodjo, F. (2005) Precooling Mass Concrete: Liquid Nitrogen Proved to be the Best Alternative on the San Francisco-Oakland Bay Bridge. Concrete Construction, 50 (8), 36-40.
[3] Beaver, W. (2004) Liquid Nitrogen for Concrete Cooling. Concrete International, 26 (9), 93-95.
[4] Abdel-Raheem, M., Quintana, O., Morales, M., Marroquin-Villa, Y., Ramos, D., & Hernandez, S. (2018) Construction Methods Used for Controling Temperature in Mass Concrete Structures. In Creative Construction Conference 2018 (pp. 139-146). Budapest University of Technology and Economics.
[5] Nakane, S., Saito, H., and Ohike, T. (1992) Strength Development and Microstructure of Cement and Concrete Precooled with Liquid Nitrogen. Concrete in Hot Climates, E&FN Spon, London, UK, pp. 89-99.  
[6]  Hema, J. (2007) The Effects of Liquid Nitrogen on Concrete Hydration, Microstructure, and Properties, dissertation, The University of Texas at Austin, Austin, TX.
[7] Juenger, M. C., et al. (2010) Effects of liquid nitrogen cooling on fresh concrete properties. ACI Materials Journal, 107(2), 123.
[8] ASTM C143, Standard Test Method for Slump of Hydraulic Cement Concrete, 2003.
[9] ASTM C191, Standard Test Method for Time of Setting of Hydraulic Cement by Vicat Needle, 2008.
[10] BS 12390, Testing hardened concrete- Part 3: Compressive strength of test specimens, 2001.
[11] ASTM C496, Standard Test Method for Splitting Tensile Strength of Cylindrical Concrete Specimens, 2004.
[12] ASTM C293, Standard Test Method for Flexural Strength of Concrete (Using Simple Beam With Center-Point).
[13] Zeyad, A. M. (2019). Effect of curing methods in hot weather on the properties of high-strength concretes. Journal of King Saud University-Engineering Sciences31(3), 218-223.‏
[14] Almakhadmeh, M., & Soliman, A. M. (2021). Effects of mixing water temperatures on properties of one-part alkali-activated slag paste. Construction and Building Materials266, 121030.
[15] Rizzuto, J. P., Kamal, M., Elsayad, H., Bashandy, A., Etman, Z., Roos, M. N. A., & Shaaban, I. G. (2020). Effect of self-curing admixture on concrete properties in hot climate conditions. Construction and Building Materials261, 119933.
Journal of Structural and Construction Engineering
Volume 8, Issue 11 - Serial Number 51
February 2022
Pages 278-291

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History

  • Receive Date: 17 December 2020
  • Revise Date: 14 May 2021
  • Accept Date: 10 June 2021

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