A study on mechanical properties and stress – strain response of high strength concrete reinforced with polypropylene–polyester hybrid fibres
1
Department of Civil Engineering, National Institute of Technology, Warangal, India
Publication date: 2018-01-01
Cement Wapno Beton 23(1) 67-77 (2018)
KEYWORDS
Polyester fi brePolypropylene fi breFibre reinforced concreteHybrid fi bre reinforced concreteToughness
REFERENCES (30)
1.
M. Grzybowski, S.P. Shah, Shrinkage cracking of fi ber reinforced concrete, ACI Mater. J. 87, 138-148 (1990).
4.
J.G.M. Van Mier, Fracture processes of concrete assessment of material parameters for fracture models, CRC Press 1997.
5.
S. F. Uddin Ahmed, H. Mihashi, Strain hardening behaviour of lightweight hybrid polyvinyl alcohol (PVA) fi ber reinforced cement composites, Mater. Struct. 44, 1179-1191 (2011).
6.
H. Kasagani, C.B.K Rao, The infl uence of hybrid glass fi bers addition on stress – strain behavior of concrete, Cement-Wapno-Beton, 83, 361 – 372 (2016).
7.
N. Banthia, M. Sappakittipakorn, Toughness enhancement in steel fi ber reinforced concrete, Cem. Concr. Res. 37, 1366-1372 (2007).
8.
B. Chen J. Liu, Contribution of hybrid fi bers on the properties of the high-strength lightweight concrete having good workability, Cem. Concr. Res. 35, 913-917 (2005).
9.
L. Xu, L. Huang, Y. Chi, G. Mei, Tensile Behavior of Steel-Polypropylene Hybrid Fiber-Reinforced Concrete, ACI Mater. J. 113, 219-229 (2016).
10.
D. Feldman, Z. Zheng, Synthetic fi bres for fi bre concrete composites, MRS Online Proceedings Library, Archive 305 (1993).
11.
L. Hung, L. Xu, Experimental investigation on the seismic performance of steel–polypropylene hybrid fi ber reinforced concrete columns, Constr. Build. Mater. 87, 16-17 (2015).
12.
M.A. Sanjuan, C. Andrade, A. Bentur, Effect of crack control in mortars containing polypropylene fi bres on the corrosion of steel in a cementitious matrix, ACI Mater. J., 94, 134–141 (1997).
13.
K. Kovler, J. Sikuler, A. Bentur, Free and restrained shrinkage of fi bre reinforced concrete with low polypropylene fi bre content at early age, Fibre Reinforced Cement and Concrete, E&FN Spon, London, 92–101 (1992).
14.
Krenchel. H.. and Shah, S. P.. “Restrained Shrinkage Tests with Polypropylene Fiber Reinforced Concrete,” Fiber Reinforced Concrete and Applicntions. ACI SP-105, 141-158 (1987).
15.
N. Banthia, M. Azzabi, M. Pigeon, Restrained shrinkage cracking in fi bre-reinforced cementitious composites, Mater. Struct. 26, 405-413 (1993).
16.
Yilmaz Akkaya, Surendra P.Shah, and Bruce Ankenman, Effect of Fiber Disperssion on Multiple Cracking of Cement Composites, Journal of Engineering Mechanics, Vol. 127, No. 4, pp. 311-337 (2000).
17.
Stroeven P, Babut R, Fracture mechanics and structural aspects of Concrete, Heron, 31(2), 15–44 (1986).
18.
Zhang, Y, Study on uniaxial compressive constitutive relationship and uniaxial tensile behavior of steel- polypropylene hybrid fi ber reinforced concrete, Ph.D. thesis, Wuhan Univ, Wuhan (2010).
19.
C.X.quian, Development of hybrid fi ber polypropylene - steel fi ber reinforced concrete, cement and concrete research, Vol 30, 63-69 (2000).
20.
Qian C, Stroeven P, Fracture properties of concrete reinforced with steel-polypropylene hybrid fi bres, Cement and Concrete Composites, Vol 31, 343-51(2000).
21.
Naaman, A.E, Engineered steel fi bers with optimal properties for reinforcement of cement composites, Journal of advanced concrete technology, 1(3), pp.241-252 (2003).
22.
IS: 12269, Indian Standard Ordinary Portland cement, 53 Grade – Specifi cation, Bureau of Indian Standards. New Delhi (2013).
23.
IS: 3812 Part-1, Pulverized fuel ash-specifi cation, Bureau of Indian Standards, New Delhi (2003).
24.
IS: 15388, Silica Fume Specifi cations. Bureau of Indian Standards. New Delhi, (1959).
25.
IS: 383 (Reaffi rmed 2002), Indian Standard Specifi cation for Coarse and Fine Aggregates from Natural Sources for Concrete. Bureau of Indian Standards, New Delhi (2002).
26.
IS: 9103, Standard Specifi cation for Chemical Admixtures for Concrete. Bureau of Indian Standards, New Delhi (1999).
27.
IS: 516, Methods of tests for concrete. Bureau of Indian Standards, New Delhi (1959).
28.
IS: 5816, Splitting Tensile Strength of Concrete - Method of Test. Bureau of Indian Standards, New Delhi (1999).
29.
YilmazAkkaya, SurendraP.Shah, and Bruce Ankenman, Effect of Fiber Dispersion on Multiple Cracking of Cement Composites. Journal of Engineering Mechanics, Vol. 127, No. 4, p. 311-337 (2001).
30.
P. Pierre, R. Pleau(1999), M. Pigeon, Mechanical properties of steel microfi ber reinforced cement pastes and mortars, J. Mater. Civ. Eng. 11 (4) p.317– 32. (1999).
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