Browse > Article
http://dx.doi.org/10.12989/acc.2019.8.2.139

Effects of cement dosage and steel fiber ratio on the mechanical properties of reactive powder concrete  

Erdogdu, Sakir (Department of Civil Engineering, Karadeniz Technical University)
Kandil, Ufuk (Department of Civil Engineering, Karadeniz Technical University)
Nayir, Safa (Department of Civil Engineering, Karadeniz Technical University)
Publication Information
Advances in concrete construction / v.8, no.2, 2019 , pp. 139-144 More about this Journal
Abstract
In this study, the mechanical properties of reactive powder concrete (RPC) with a constant cement to silica fume ratio of 4 were investigated. In the experimental program, reactive powder concretes with steel fiber at different ratios were produced. Five productions using quartz sand with a maximum grain size of 0.6 mm were performed. A superplasticizer with a ratio of 3% of the cement was used for all productions. $40{\times}40{\times}160mm$ prismatic specimens were prepared and tested for flexural and compression. The specimens were exposed to two different curing conditions as autoclave and standard curing condition. Autoclave exposure was performed for 3 hours under a pressure of 2 MPa. It was observed that the compressive strength of concrete, along with the flexural strength exposed to autoclave was quite high compared to the strength of concretes subjected to standard curing. The results obtained indicated that the compressive strength, along with the flexural strength of autoclaved concrete increased as the amount of cement used increases. Approximately 15% increase in flexural strength was achieved with a 4% steel fiber addition. The maximum compressive strength that has been reached is over 210 MPa for reactive powder concrete for the same steel fiber ratio and with a cement content of $960kg/m^3$. The relationship between compressive strength and flexural strength of reactive powder concrete exposed to both curing conditions was also identified.
Keywords
autoclave; reactive powder concrete; mechanical properties; steel fiber; silica fume;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
연도 인용수 순위
1 Al-Tikrite, A. and Hadi, M.N.S. (2017), "Mechanical properties of reactive powder concrete containing industrial and waste steel fibres at different ratios under compression", Constr. Build. Mater., 154, 1024-1034.   DOI
2 Khan, M.I., Abbas, Y.M. and Fares, G. (2017), "Review of high and ultrahigh performance cementitious composites incorporating various combinations of fibers and ultrafines", J. King Saud Univ.-Eng. Sci., 29, 339-347.
3 Kumar, A., Rao, A.U. and Sabhait, N. (2013), "Reactive powder concrete properties with cement replacement using waste material", Int. J. Scientif. Eng. Res., 4, 203-206.
4 Mostofjenad, D., Nikoo, M.R. and Hosseini, S.A. (2016), "Determination of optimized mix design and curing conditions of reactive powder concrete (RPC)", Constr. Build. Mater., 123, 754-767.   DOI
5 Yunsheng, Z., Wei, S., Chujie, J. and Jianzhong, L. (2008), "Preparation of C200 green reactive powder concrete and its static-dynamic behavior", Cement Concrete Compos., 30(9), 831-838.   DOI
6 Zeng, W., Luo, B. and Wang, Y. (2013), "Compressive and tensile properties of reactive powder concrete with steel fibres at elevated temperatures", Constr. Build. Mater., 41, 844-851.   DOI
7 Nematzadeh, M. and Poorhosein, R. (2017), "Estimating properties of reactive powder concrete containing hybrid fibers using UPV", Comput. Concrete, 20(4), 491-502.   DOI
8 Ng, K.M., Tam, C.M. and Tam, V.W.Y. (2010), "Studying the production process and mechanical properties of reactive powder concrete: a Hong Kong study", Mag. Concrete Res., 62, 647-654.   DOI
9 Parande, A.K. (2013), "Role of ingredients for high strength and high-performance concrete-A review", Adv. Concrete Constr., 1(2), 151-162.   DOI
10 Poorhosein, R. and Nematzadeh, M. (2018), "Mechanical behavior of hybrid steel-PVA fibers reinforced reactive powder concrete", Comput. Concrete, 21(2), 167-179.   DOI
11 Topcu, I.B., Uygunoglu, T. and Mumyakmaz, Y.A (2014), "An investigation on technical properties of reactive powder concrete", El-Cezeri J. Sci. Eng., 1(1), 29-46.
12 Rahmatabadi, M.A.D. (2015), "Mechanical properties of reactive powder concrete under pre-setting pressure and different curing regimes", Int. J. Struct. Civil Eng. Res., 4, 354-358.
13 Richard, P. and Cheyrezy, M. (1994), "Reactive powder concretes with high ductility and 200-800 MPa compressive strength", ACI Spec. Publ., 144, 507-518.
14 Richard, P. and Cheyrezy, M. (1995), "Composition of reactive powder concretes", Cement Concrete Res., 25(7), 1501-1511.   DOI
15 Richard, P. and Cheyrezy, M. (1995), "Microstructural analysis of RPC (Reactive powder concrete)", Cement Concrete Res., 25(7), 1491-1500.   DOI
16 Sohail, M.G., Yardimci, M.C., Aydin, S. and Karabulut, A.S. (2014), "Mechanical properties of reactive powder concrete containing mineral admixtures under different curing regimes", Constr. Build. Mater., 23, 1223-1231.   DOI
17 TS EN 1015-3 (2000), Methods of Test for Mortar for Masonry-Part 3: Determination of Consistence of Fresh Mortar (by Flow Table), Turkish Standards, Ankara. (in Turkish)
18 TS EN 196-1 (2016), Methods of Testing Cement-Part 1: Determination of Strength, Turkish Standards, Ankara (in Turkish).
19 Yanni, V.Y.G. (2009), "Multi-scale investigation of tensile creep of ultra high-performance concrete for bridge applications", Ph.D. Thesis, Georgia Institute of Technology.
20 Yanzhou, P, Jun, Z., Jiuyan, L., Jin., K. and Fazhou, W. (2015), "Properties and microstructure of reactive powder concrete having a high content of phosphorous slag powder and silica fume", Constr. Build. Mater., 101, 482-487.   DOI
21 Yazici, H., Deniz, E. and Baradan, B. (2013), "The effect of autoclave pressure, temperature and duration time on mechanical properties of reactive powder concrete", Constr. Build. Mater., 42, 53-63.   DOI
22 Yazici, H., Yardimci, M.C, Aydin, S. and Karabulut, A.S. (2009), "Mechanical properties of reactive powder concrete containing mineral admixtures under different curing regimes", Constr. Build. Mater., 23, 1223-1231.   DOI
23 Chan, Y. and Chu, S. (2004), "Effect of silica fume on steel fiber bond characteristics in reactive powder concrete", Cement Concrete Res., 34(7), 1167-1172.   DOI
24 Amudhavalli1, N.K. and Poovizhiselvi, M. (2017), "Relationship between compressive strength and flexural strength of polyester fiber reinforced concrete", Int. J. Eng. Trend. Technol., 45(4), 158-160.   DOI
25 ASTM C 230 (2014), Standard Specification for Flow Table for Use in Tests of Hydraulic Cement, ASTM International, West Conshohocken, PA.
26 Beglarigale, A., Yalcinkaya, C. and Yazici, H. (2014), "Autoclaved reactive powder concrete: the effects of steel micro-fibers and silica fume dosage on the mechanical properties", Usak Univ. J. Mater. Sci., 1, 7-14.
27 Dugat, J., Roux, N. and Bernier, G. (1996), "Mechanical properties of reactive powder concretes", Mater. Struct., 29(4), 233-240.   DOI
28 Chen, T., Gao, X. and Ren, M. (2018), "Effects of autoclave curing and fly ash on mechanical properties of ultra-highperformance concrete", Constr. Build. Mater., 158, 864-872.   DOI
29 Cheyrezy, M., Maret, V. and Frouin, L. (1995), "Microstructural analysis of RPC (Reactive powder concrete)", Cement Concrete Res., 25(7), 1491-1500.   DOI
30 Cwirzen, A., Penttala, V. and Vornanen, C. (2008), "Reactive powder-based concretes: Mechanical properties, durability and hybrid use with OPC", Cement Concrete Res., 38(10), 1217-1226.   DOI
31 Gu, C., Ye, G. and Sun, W. (2015), "Ultrahigh performance concrete-properties, applications and perspectives", Sci. China Technol. Sci., 58, 587-599.   DOI
32 Guangjie, Y. (2009), "Application of reactive powder concrete in highway barriers", Second International Conference on Transportation Engineering, Chengdu, China, July.
33 Ahmed, M., Hadi, K.M.E, Hasan, M.A., Mallick, J. and Ahmed, A. (2014), "Evaluating the co-relationship between concrete flexural tensile strength and compressive strength", Int. J. Struct. Eng., 5(2), 115-132.   DOI
34 Hiremath, P. and Yaragal, S.C. (2017), "Investigation on mechanical properties of reactive powder concrete under different curing regimes", Mater. Today, 4, 9758-9762.   DOI