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Journal of Sustainable Cement-Based Materials Volume 7, 2018 - Issue 3
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Articles

Flexural fatigue performance of concrete made with recycled concrete aggregates and ternary blended cements

Sumit AroraDepartment of Civil Engineering, National Institute of Technology, Hamirpur, India
&
S.P. SinghDepartment of Civil Engineering, Dr B R Ambedkar National Institute of Technology, Jalandhar, IndiaCorrespondence[email protected]
Pages 182-202 | Received 01 Jun 2017, Accepted 24 Apr 2018, Published online: 23 May 2018

References

  • Abbas A, Fathifazl G, Isgor OB, et’al. Environmental benefits of green concrete. In Proceedings of the Conference on EIC Climate Change Technology. Ottawa, Canada: IEEE; 2006.
  • Limbachiya M, Meddah MS, Ouchagour Y. Performance of Portland/silica fume cement concrete produced with recycled concrete aggregate. ACI Mater J. 2012;109(1):91–100.
  • Hansen TC. Recycled aggregate and recycled aggregate concrete, second state of-the-art report, developments from 1945–1985. Mater Struct. 1986;19(3):201–246.10.1007/BF02472036
  • Katz A. Properties of concrete made with recycled aggregate from partially hydrated old concrete. Cem Concr Res. 2003;33(5):703–711.10.1016/S0008-8846(02)01033-5
  • Poon CS, Shui ZH, Lam L. Effect of microstructure of ITZ on compressive strength of concrete prepared with recycled aggregates. Constr Build Mater. 2004;18:461–468.10.1016/j.conbuildmat.2004.03.005
  • Thomas UG Jr. Recycling concrete debris from construction and demolition waste. Int J Adv Sci Technol. 2015;77:7–24.
  • Rahal K. Mechanical properties of concrete with recycled coarse aggregate. Build Environ. 2007;42(1):407–415.10.1016/j.buildenv.2005.07.033
  • Yang KH, Chung HS, Ashour A. Influence of type and replacement level of recycled aggregates on concrete properties. ACI Mater J. 2008;3:289–296.
  • Tavakoli M, Soroushian P. Drying shrinkage behavior of recycled aggregate concrete. Concr Int. 1996;18:58–61.
  • Padmini AK, Ramamurthy K, Mathews MS. Influence of parent concrete on the properties of recycled aggregate concrete. Constr Build Mater. 2009;23(2):829–836.
  • Li JB, Xiao JZ, Huang J. Influence of recycled coarse aggregate replacement percentage on compressive strength of concrete. Chin J Build Mater. 2006;9(3):297–301. (in Chinese).
  • Kou SC, Poon CS, Dixon C. Influence of fly ash as cement replacement on the properties of recycled aggregate concrete. J Mater Civ Eng. 2007;19(9):709–717.10.1061/(ASCE)0899-1561(2007)19:9(709)
  • Manzi S, Mazzotti C, Bignozzi MC. Short and long-term behavior of structural concrete with recycled concrete aggregate. Cem Concr Compos. 2013;37:312–318.10.1016/j.cemconcomp.2013.01.003
  • Babu VS, Mullick AK, Jain KK, et’al. Strength and durability characteristics of high-strength concrete with recycled aggregate-influence of processing. J Sustainable Cem-Based Mater. 2015;4(1):54–71.10.1080/21650373.2014.976777
  • Bairagi NK, Kishore R, Pareek VK. Behaviour of concrete with different proportions of natural and recycled aggregates. Resour Conserv Recycl. 1993;9(1–2):109–126.10.1016/0921-3449(93)90036-F
  • Rao MC, Bhattacharyya SK, Barai SV. Influence of field recycled coarse aggregate on properties of concrete. Mater Struct. 2011;44:205–220.
  • Elhakam AA, Mohamed AE, Awad E. Influence of self-healing, mixing method and adding silica fume on mechanical properties of recycled aggregates concrete. Constr Build Mater. 2012;35:421–427.10.1016/j.conbuildmat.2012.04.013
  • Xiao JZ, Li W, Fan Y, et’al. An overview of study on recycled aggregate concrete in China (1996–2011). Constr Build Mater. 2012;31:364–383.10.1016/j.conbuildmat.2011.12.074
  • Talamona D, Kang HT. Properties of recycled aggregate concrete for sustainable urban built environment. J Sustainable Cem-Based Mater. 2012;1(4):202–210.10.1080/21650373.2012.754571
  • Shaikh FA, Nguyen HL. Properties of concrete containing recycled construction and demolition wastes as coarse aggregates. J Sustainable Cem-Based Mater. 2013;2(3–4):204–217.10.1080/21650373.2013.833861
  • Nazarimofrad E, Shaikh FA, Nili M. Effects of steel fibre and silica fume on impact behaviour of recycled aggregate concrete. J Sustainable Cem-Based Mater. 2016;6(1):54–68.
  • Medeiros A, Zhang X, Ruiz G, et’al. Experimental research on the behaviour of high frequency fatigue in concrete. Int J Fatigue. 2015;70:342–350.10.1016/j.ijfatigue.2014.08.005
  • Awad ME, Hilsdorf HK. Strength and deformation characteristics of plain concrete subjected to high repeated and sustained loads. Fatigue Concr ACI Spec Publ. 1974;SP-41:1–13.
  • Oh BH. Fatigue analyses of plain concrete in flexure. J Struct Eng – ASCE. 1986;112(2):273–288.10.1061/(ASCE)0733-9445(1986)112:2(273)
  • Oh BH. Fatigue life distribution of concrete for various stress levels. ACI Mater J. 1991;88(2):122–128.
  • Chen Y, Ni J, Zheng P, et’al. Experimental research on the behaviour of high frequency fatigue in concrete. Eng Fail Anal. 2011;18(7):1848–1857.10.1016/j.engfailanal.2011.06.012
  • Kaur G, Singh SP, Kaushik SK. Flexural fatigue strength of steel fibre reinforced concrete containing blends of limestone powder and silica fume. Int Journal Emerg Technol Adv Eng. 2013;2(6):2250–2259.
  • Tse EW, Lee DY, Klaiber FW. Fatigue behavior of concrete containing fly ash. Proceedings of the Second International Conference on the Use of Fly Ash, Silica Fume, Slag and Natural Pozzolans in Concrete, Madrid, Spain, V M Malhotra Ed. 1, ACI Special Publication No. SP-91; 1986. p.273–289.
  • Ozaki S, Sugata N. Fatigue of concrete composed of blast furnace slag or silica fume under submerged conditions. Proceedings of the Fourth International Conference, Istanbul, Turkey. 1992. p. 1509–1524.
  • Ballinger CA. Cumulative fatigue damage characteristics. Highway Research Record No. 370, presented at 50th annual meeting of Highway Research Board, National Research Council. 1972. p. 48–60.
  • Hsu TTC. Fatigue of plain concrete. Proc ACI J. 1981;78(4):291–305.
  • Goel S, Singh SP. Fatigue performance of plain and steel fibre reinforced self compacting concrete using S–N relationship. Eng Struct. 2014;74:65–73.10.1016/j.engstruct.2014.05.010
  • Vesic AS, Saxena SK. Analysis of structural behaviour of road test rigid pavements. Highway Research Record No. 291, presented in the 48th annual meeting of Highway Research Board, National Research Council. 1969. p. 156–158.
  • Heeralal M, Rathish PK, Rao YV. Flexural fatigue characteristics of steel fiber reinforced recycled aggregate concrete (SFRRAC). Archit Civ Eng. 2009;7(1):19–33.10.2298/FUACE0901019H
  • Xiao J, Li H, Yang Z. Fatigue behavior of recycled aggregate concrete under compression and bending cyclic loading. Constr Build Mater. 2013;38:681–688.10.1016/j.conbuildmat.2012.09.024
  • Thomas C, Setien J, Polanco JA, et’al. Fatigue limit of recycled aggregate concrete. Constr Build Mater. 2014;52:146–154.10.1016/j.conbuildmat.2013.11.032
  • Arora S, Singh SP. Analysis of flexural fatigue failure of concrete made with 100% coarse recycled concrete aggregates. Constr Build Mater. 2016;102:782–791.10.1016/j.conbuildmat.2015.10.098
  • Arora S, Singh SP. Flexural fatigue analysis of concrete made with 100% recycled concrete aggregates. J Mater Eng Struct. 2015;2:77–89.
  • Xiao JZ, Li WG, Poon CS. Recent studies on mechanical properties of recycled aggregate concrete in China – a review. Sci Chin Technol Sci. 2012;55(6):1463–1480.10.1007/s11431-012-4786-9
  • Rao MC, Bhattacharyya SK, Barai SV. Influence of field recycled coarse aggregate on properties of concrete. Mater Struct. 2011;44:205–220.
  • Ravindrajah RS, Tam TC. Properties of concrete made with crushed concrete as aggregates. Mag Concr Res. 1985;37(130):29–38.10.1680/macr.1985.37.130.29
  • Singh SP, Kaushik SK. Flexural fatigue analysis of steel fibre-reinforced concrete. ACI Mater J. 2001;98:306–312.
  • Gumble EJ. Parameters in distribution of fatigue life. J Eng Mech – ASCE. 1963;89(5):45–63.
  • Mohammadi Y, Kaushik SK. Flexural fatigue-life distributions of plain and fibrous concrete at various stress levels. J Mater Civ Eng – ASCE. 2005;17(6):650–658.10.1061/(ASCE)0899-1561(2005)17:6(650)
  • Singh SP, Mohammadi Y, Goel S, et’al. Prediction of mean and design fatigue lives of steel fibrous concrete beams in flexure. Adv Struct Eng. 2007;10(1):25–36.10.1260/136943307780150896
  • Goel S, Singh SP, Singh P. Flexural fatigue strength and failure probability of self compacting fibre reinforced concrete beams. Eng Struct. 2012;40:131–140.10.1016/j.engstruct.2012.02.035
  • Wirsching PH, Yao JTP. Statistical methods in structural fatigue. Proc ASCE. 1970;100(6):1201–1219.
  • Wirsching PH, Yao JTP. Fatigue reliability: introduction. J Struct Div ASCE. 1982;108:3–23.
  • Mohammadi Y. Behaviour of steel fibre reinforced concrete in flexural fatigue [ PhD thesis]. Roorkee: University of Roorkee; 2002.
  • Arora S, Singh SP. Fatigue strength and failure probability of concrete made with RCA. Mag Concr Res. 2017;69(2):55–67.10.1680/jmacr.15.00353

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