Experimental Study on Axial Compressive Properties of Rubber Concrete at Low Temperature
Publication: Journal of Materials in Civil Engineering
Volume 30, Issue 3
Abstract
In this paper, waste-tire crumb rubber with a size of 2–4 mm was used to prepare rubber concrete, and the axial compressive properties were tested at temperatures of and 20°C. According to the feature points in the prepeak stress-strain curves, the strength, peak strain, deformability, and elastic modulus of rubber concrete at are compared with those at 20°C. The influence of different water/binder ratios and rubber contents on the relative axial compressive strength and relative elastic modulus of rubber concrete are also discussed. The results show that the ascending branches of axial compressive stress-strain curves of rubber concrete have a little difference with those of ordinary concrete. At , the stress and strain of rubber concrete are much larger and the responding deformation ability is obviously better than that of ordinary concrete as the rubber content increases.
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References
Bravo, M., and Brito, J. D. (2012). “Concrete made with used tyre aggregate: Durability-related performance.” J. Cleaner Prod., 25(4), 42–50.
Chinese Standard. (2003). “Standard for test method of mechanical properties on ordinary concrete.” GB/T 50081-2002, China Architectural Industry Press, Beijing.
Chinese Standard. (2011). “Specification for mix proportion design of ordinary concrete.” JGJ55-2011, China Architectural Industry Press, Beijing.
Cui, C. C., Huang, Q., Li, D. B., Quan, C. R., and Hong, C. (2016). “Stress-strain relationship in axial compression for EPS concrete.” Constr. Build. Mater., 105, 377–383.
Dong, Q., Huang, B. S., and Shu, X. (2013). “Rubber modified concrete improved by chemically active coating and silane coupling agent.” Constr. Build. Mater., 48, 116–123.
Eldin, N. N., and Senouci, A. B. (1993). “Observations on rubberized concrete behavior.” Cem. Concr. Aggregate, 15(1), 74–84.
Huang, B. S., Li, G. Q., Pang, S. S., and Eggers, J. (2004). “Investigation into waste tire rubber-filled concrete.” J. Mater. Civ. Eng., 187–194.
Huang, B. S., Shu, X., and Cao, J. Y. (2013). “A two-staged surface treatment to improve properties of rubber modified cement composites.” Constr. Build. Mater., 40, 270–274.
Lee, G. C., Shih, T. S., and Chang, K. C. (1988). “Mechanical properties of high-strength concrete at low temperature.” J. Cold Reg. Eng., 169–178.
Li, G. Q., Pang, S. S., and Ibekwe, S. I. (2011). “FRP tube encased rubberized concrete cylinders.” Mater. Struct., 44(1), 233–243.
Li, L. J., Ruan, S. H., and Zeng, L. (2014). “Mechanical properties and constitutive equations of concrete containing a low volume of tire rubber particles.” Constr. Build. Mater., 70, 291–308.
Mendis, A. S. M., Al-Deen, S., and Ashraf, M. (2017). “Behaviour of similar strength crumbed rubber concrete (CRC) mixes with different mix proportions.” Constr. Build. Mater., 137, 354–366.
Miura, T. (1989). “The properties of concrete at very low temperatures.” Mater. Struct., 22(4), 243–254.
Mohammed, B. S., Hossain, K. M. A., Swee, J. T. E., Wong, G., and Abdullahi, M. (2012). “Properties of crumb rubber hollow concrete block.” J. Cleaner Prod., 23(1), 57–67.
Monfore, G. E., and Lentz, A. E. (1962). “Physical properties of concrete at very low temperatures.” J. PCA Res. Dev. Lab., 4(2), 33–39.
Moustafa, A., and ElGawady, M. A. (2015). “Mechanical properties of high strength concrete with scrap tire rubber.” Constr. Build. Mater., 93, 249–256.
Nacif, G. L., Hallakstrecker, T., Kurt, C., and Luispaine, A. (2013). “Investigations on cementitious composites based on rubber particle waste additions.” Mater. Res., 16(2), 259–268.
Raffoul, S., Garcia, R., Escolano-Margarit, D., Guadagnini, M., Hajirasouliha, I., and Pilakoutas, K. (2017). “Behaviour of unconfined and FRP-confined rubberised concrete in axial compression.” Constr. Build. Mater., 147, 388–397.
Richardson, A., Coventry, K., Edmondson, V., and Dias, E. (2016). “Crumb rubber used in concrete to provide freeze-thaw protection (optimal particle size).” J. Cleaner Prod., 112, 599–606.
Rostásy, F. S., Schneider, U., and Wiedemann, G. (1979). “Behaviour of mortar and concrete at extremely low temperatures.” Cem. Concr. Res., 9(3), 365–376.
Rostásy, F. S., and Wiedemann, G. (1980). “Stress-strain behaviour of concrete at extremely low temperature.” Cem. Concr. Res., 10(4), 565–572.
Shan, G. Z., and Zhao, K. Z. (1980). “Concrete at ultra-low temperature.” Low. Tem. Arch. Technol., 1, 57–60 (in Chinese).
Sharma, V. K., Fortuna, F., Mincarini, M., Berillo, M., and Cornacchia, G. (2000). “Disposal of waste tyres for energy recovery and safe environment.” Appl. Energy, 65(1), 381–394.
Su, H. L., Yang, J., Ling, T. C., Ghataora, G. S., and Dirar, S. (2015). “Properties of concrete prepared with waste tyre rubber particles of uniform and varying sizes.” J. Cleaner Prod., 91, 288–296.
Topçu, I. B. (1995). “The properties of rubberized concrete.” Cem. Concr. Res., 25(2), 304–310.
Xie, J., Li, X. M., and Wu, H. H. (2014). “Experimental study on the axial-compression performance of concrete at cryogenic temperatures.” Constr. Build. Mater., 72, 380–388.
Yang, L. H., Zhu, H., and Cheng, F. L. (2011). “Strengths and flexural strain of CRC specimens at low temperature.” Constr. Build. Mater., 25(2), 906–910.
Yi, S. T., Kim, J. K., and Oh, T. K. (2003). “Effect of strength and age on the stress-strain curves of concrete specimens.” Cem. Concr. Res., 33(8), 1235–1244.
Zhang, N., Liao, J., Ji, W. Z., Wang, B. H., Zhang, D. H., and Li, Y. W. (2014). “Mechanical properties and test method of concrete at low temperature.” J. Chin. Ceram. Soc., 42(11), 1404–1408 (in Chinese).
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©2017 American Society of Civil Engineers.
History
Received: Apr 25, 2017
Accepted: Aug 30, 2017
Published online: Dec 22, 2017
Published in print: Mar 1, 2018
Discussion open until: May 22, 2018
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