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Fiber reinforced cementitious composites

Bentur, A. and Mindess, S. (1990) Fiber Reinforced Cementitious Composites, Elsevier, London. [Pg.227]

Wang, Y., Backer, S. and Li, V.C. (1987) An experimental study of synthetic fiber reinforced cementitious composites. Journal of Materials Science, Vol. 22, pp. 4281 -291. [Pg.227]

Alaee, F. J., Retrofitting of Concrete Structures using High Performance Fiber Reinforced Cementitious Composite (HPFRCC), Ph.D. Thesis. University of Wales, Cardiff, 2001. [Pg.113]

Chloride-Induced Corrosion Durability of High-Performance Fiber-Reinforced Cementitious Composites State-of-the-Art Review... [Pg.147]

FIGURE 6.14 Self-healing of cracks in PE and PVA fiber-reinforced HPFRCC. (From Koda, M. et al.. Self-healing capability of fiber reinforced cementitious composites. Proceedings of the International Workshop on... [Pg.156]

Ahmed, S.F.U. and Mihashi, H. (2010). Corrosion durability of strain hardening fiber reinforced cementitious composites. Australian Journal of Civil Engineering, 8(1) 13-25. [Pg.166]

Mihashi, H., Ahmed, S.RU. and Kobayakawa, A. (2011a). Corrosion of reinforcing steel in fiber reinforced cementitious composites. Journal of Advanced Concrete Technology, 9(2) 159-167. [Pg.167]

Figure 25.1 Schematic presentation of the distribution of fibers in a fiber-reinforced cementitious composite material. Figure 25.1 Schematic presentation of the distribution of fibers in a fiber-reinforced cementitious composite material.
Table 25.1 summarizes the properties of the fibers most commonly used in fiber-reinforced cementitious composites and compares them with those of ordinary Portland cement paste. [Pg.336]

Table 25.1 Properties of fibers used in fiber-reinforced cementitious composite materials. Table 25.1 Properties of fibers used in fiber-reinforced cementitious composite materials.
Rokugo, K., Kanda, T., Yokota, H., Sakata, N. (2007) Outline of JSCE Recommendation for Design and Construction of Multiple Fine Cracking Type Fiber Reinforced Cementitious Composite (HPC), in Int.Workshop HPPRCC 5, RILEM, Proc.53, W. H. Reinhardt and A. E. Naaman eds pp. 203-12. [Pg.458]

J. Nemecek, P. Kabele and Z. Bittnar, Nanoindentation based assessment of micromechanical properties of fiber reinforced cementitious composite , in M. Di Prisco, R. Felicetti and G.A. Plizzari (eds) Fibre Reinforced Concrete - BEFiB 2004, Proc. RILEM Symposium, PRO 39, RILEM, Bagneux, France, 2004, pp. 401-410. [Pg.29]

Z. Lin and V.C. Li, Crack bridging in fiber reinforced cementitious composites with slip-hardening interfaces , J.Mech. Phys. SoUds S, 1997, 763-787. [Pg.100]

Z. Li, B. Mobasher and S.P. Shah, Characterization of interfaciai properties in fiber-reinforced cementitious composites , J. Amer. Ceram. Soc. 74,1991,2156-2164. S. Igarashi, A. Bentur and S. Mindess, The effect of processing on the bond and interfaces in steel fiber reinforced cement composites , Cem. Concr. Compos. 18, 1996, 313-322. [Pg.101]

A. Bentur, Long term performance of fiber reinforced cementitious composites , in J.P. Skalny and S. Mindess (eds) Materials Scienoe in Conorete- V, The American Ceramic Society, Iflfesterville, Ohio, 1998, 513-536. [Pg.104]

V.C. Li, D.K. Mishra and H.C. Wu, Matrix design for pseudo strain-hardening fiber reinforced cementitious composites . Mater. Struct 28,1995, 586 595. [Pg.171]

N. Banthia, M. Azzabi, and M. Piegon, Restrained Shrinkage Cracking in Fiber Reinforced Cementitious Composites , Mater. Struct. 26,1993, 405-413. [Pg.185]

V.S. Bindiganavile and N. Banthia, Polymer and steel fiber-reinforced cementitious composites under impact loading—Part 1 bond-slip response . Ad Mater. J. 98, 2001,10-16,... [Pg.232]

A. Bentur, K. Kovier and i Odier, Durabiiity of some giass fiber reinforced cementitious composites , in K.C.G. Ong, J.M. Lau and P. Paramasivam (eds) 5th International Conference on Structural Failure, Durability and Retrofitting, Singapore Concrete institute, Singapore, 1997, pp. 190-199. [Pg.339]

T. Saito, T. Horikoshi and H. Hoshiro, Progress of PVA fiber reinforced cementitious composites , in A.E. Naaman and H.W. Reinhardt (eds) High Performance Fiber Reinforced Cement Composites (HPFRCC 4), Proc. RILEM PRO 30, RILEM Publications, Bagneux, 2003, pp. 391-398. [Pg.428]

X. Ein, D.M. Silsbee and D.M. Roy, The microstructure of wood fiber reinforced cementitious composites , in S. Diamond, S. Mindess, F.P. Glasser, L.W. Roberts, J.P. Skalnyand E.D. Wakeley (eds) Microstructure of Cement-Based Systems/Bonding and interfaces in Cementitious Materials, Materials Research Society Symp. Proc. Vol. 370, Materials Research Society, Pittsburgh, PA, pp. 487-495. [Pg.467]

N. Hisabe, I. Yoshitake, H. Tanaka and S. Hamada, Mechanical behavior of fiber reinforced concrete elements subjected to pure shearing stress , in International Workshop on High Perfromance Fiber Reinforced Cementitious Composites in Structural Applications, Honolulu, 2005, CD-ROM. [Pg.589]

I. Mindess,Sidney. II.Title. III.Title Fiber reinforced cementitious composites. IV. Series Modern concrete technology series (E. F.N. Spon) TA4I8.9.C6B46 2006... [Pg.611]

See other pages where Fiber reinforced cementitious composites is mentioned: [Pg.147]    [Pg.147]    [Pg.163]    [Pg.163]    [Pg.334]    [Pg.335]    [Pg.337]    [Pg.339]    [Pg.341]    [Pg.408]    [Pg.2307]    [Pg.2307]    [Pg.171]    [Pg.467]    [Pg.526]   
See also in sourсe #XX -- [ Pg.186 ]



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