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Fiber reinforced cement

Table 14 Influence of Humidity on Flexural Strength and Fracture Toughness of Cellulose Fiber Reinforced Cements [78]... Table 14 Influence of Humidity on Flexural Strength and Fracture Toughness of Cellulose Fiber Reinforced Cements [78]...
Water-reducing plasticizers, fiber-reinforced cements.24... [Pg.1266]

Bartos, P. (1981). Review paper Bond in fiber reinforced cements and concrete. Intern. J. Cement Composites 3, 159-177. [Pg.86]

Fligh Performance Fiber Reinforced Cement Composites... [Pg.229]

Considerable effort has been devoted to finding alternative fibers or minerals to replace asbestos fibers in their applications. Such efforts have been motivated by various reasons, typically, availability and cost, and more recently, health concerns. During World War I, some countries lost access to asbestos fiber supplies and had to develop substitute materials. Also, in the production of fiber reinforced cement products, many developing countries focused on alternatives to asbestos fibers, in particular on cellulose fibers readily available locally at minimal cost. Since the 1980s however, systematic research has been pursued in several industrialized countries to replace asbestos fibers in all of their current applications because of perceived health risks. [Pg.355]

SFRPCM, Steel fiber reinforced SBR-modified mortar CFRC, Carbon fiber reinforced cement... [Pg.211]

On account of their favorable properties and comparatively low price, bitumen paints have been used to protect concrete structures (foundations, bridge abutments), felt roofs, sheet-metal roofs, drinking water reservoirs, silos, pipes made from fiber-reinforced cement, concrete, steel and cast iron, and in vehicle construction (wagon underframes, car underfloor protection). [Pg.93]

Kobayashi, K., Lizuka, T., Kurachi, H. and Rokugo, K. (2010). Corrosion protection performance of high performance fiber reinforced cement composites as a repair material. Cement and Concrete Composites, 32 411 20. [Pg.166]

Miao, C. Mu, R. Tian, Q. Sun, W. (2002). Effect of Sulphate Solution on the Frost Resistance of Concrete with and without Steel Fiber Reinforcement, Cement and Concrete Research, Vol. 32, No. 1, pp. 31-34, ISSN 0008-8846. [Pg.191]

Naaman, A. Reinhardt, H.W., Eds (1996). High Performance Fiber Reinforced Cement Composites (HPFRCC2), fVoc., 2" Int. RILEM Workshop, RILEM, Proceedings 31, London, E. FN Spon, ISBN 0419211802. [Pg.191]

Ramakrishnan, V. Meyer, C. Naaman, A. Zhao, G. Fang, L. (1996).Cyclic Behavior, Fatigue Strength, Endurance Limit and Models for Fatigue Behavior of FRC, in A. Naaman, H.W. Reinhardt (Eds.), High performance fiber reinforced cement composites, London, E FN Spon, ISBN 0419211802. [Pg.191]

Banthia, N., Seng, J., and Pigeon, M. (1992) Strengthening and toughening mechanism in caibon fiber reinforced cement, in Proceedings 9th ICCC, New Delhi, Vol. 5, pp.492-504. [Pg.339]

Bentur, A., Ben-Bassat, M., and Schneider, D. (1985a) Dnrability of glass-fiber-reinforced cements with different alkali-resistant glass fibers. Journal of the American Ceramic Society 68,203-208. [Pg.339]

Bentur, A., Diamond, S., and Mindess, S. (1985b) Cracking process in steel fiber reinforced cement paste. Cement and Concrete Research 15, 331-342. [Pg.339]

Fu, X., Lu, W., and Chimg, D.D.L. (1996b) Improving the tensile properties of carbon fiber reinforced cement by ozone treatmerrt of fibers. Cement and Concrete Research 26, 1485-1488. [Pg.340]

Ohama, Y., Amano, M., and Errdo, M. (1985) Properties of carbon fiber reinforced cement with silica fitme. Concrete International 10,58-62. [Pg.340]

Wood chips or wood fibers may also be combined with Portland cement to produce wood chip-cement plates (also called wood fiber reinforced cement composites or wood-cement composites) (Lin et al., 1994 Sorashia et al., 1994 Simatupang et al., 1995). In... [Pg.342]

Pandz, S., Marikunte, S., and Won, J.-P. (1994) Wood fiber reinforced cement composites under wetting-drying and fieezing-thawing cycles. Journal of Materials in Civil Engineering 6,595-611. [Pg.344]

Substrate, Sterling board (high-density inoi anic fiber-reinforced cement board). [Pg.473]

Carbon fibers were successfully incorporated in ceramic and glass matrices by Sambell, Bowen, Phillips, and Briggs [104-106]. Briggs [107] has provided a good review of carbon fiber reinforced cement. [Pg.86]

Later, workers at Harwell produced samples of carbon fiber reinforced cement (cfrc) by the process of filament winding under tension, giving good fiber alignment and distribution [25]. [Pg.585]

Figure 15.4 Initial Young s modulus of continuous carbon fiber reinforced cement. Source Reprinted from Aveston J, Mercer RA, Sillwood JM, Conference Proceedings Composites Standards Testing and Design, NPL 1974, IPC Science Technoiogy Press, 93-103, 1974. Figure 15.4 Initial Young s modulus of continuous carbon fiber reinforced cement. Source Reprinted from Aveston J, Mercer RA, Sillwood JM, Conference Proceedings Composites Standards Testing and Design, NPL 1974, IPC Science Technoiogy Press, 93-103, 1974.
Cement Standards of the World - The European Cement Association, Brussels, Belgium. Soroushian P, Nagj M, Hsu JW, Optimization of the use of lightweight aggregates in carbon fiber reinforced cement, ACl Mater J, 89(3), 267-276, 1992. [Pg.618]

Qijun Zheng, Chung DDL, Carbon fiber reinforced cement composites improved by using chemical agents. Cement Concrete Res, 19, 25-41, 1989. [Pg.618]

Pu-Woei Chen, Xuli Fu, Chung DDL, Microstructural and mechanical effects of latex, methyl-cellulose and silica fume on carbon fiber reinforced cement, ACI Mate. J, 94(2), 147-155, 1997. Xuli Fu, Chung DDL, Combined use of silica fume and methylceUulose as admixtures in concrete for increasing the bond strength between concrete and steel rebar. Cement Concrete Res, 28(4), 487-492, 1998. [Pg.618]

Yuan CZ, Hua CQ, Feng G, Influence of interface modification in fiber reinforced cement composites on their properties. Mat Res Soc Symp Proc, 211, 209-214, 1991. [Pg.618]

Larson BK, Drzal LT, Sorousian P, Carbon-fiber-cement adhesion in carbon-fiber reinforced cement composites, Composites, 21(3), 205-215, 1990. [Pg.619]

Sakai H, Takahashi K, Mitsui Y, Ando T, Awata M, Hoshijima T, Flexural behavior of carbon fiber reinforced cement composite, American Concrete Institute Report, SP 142-7, 121-129. [Pg.619]

Toutanji HA, El-Korchi T, Katz RN, Leatherman GL, Behavior of carbon fiber reinforced cement composites in direct tension, Cement Concrete Res, 23, 618-626, 1993. [Pg.619]

Ohama Y, Amana M, Endo M, Properties of carbon fiber reinforced cement with sUiea fume. Concrete Int Design Construct, 3, 58-62, 1985. [Pg.619]

Chiou JM, Zheng Q, Chung DDL, Electromagnetic interference shielding by carbon fiber reinforced cement. Composites, 20(4), 379 381, 1989. [Pg.619]

Sihai Wen, Chung DDL, Seebeck effect in carbon fiber reinforced cement. Cement Concrete Res, 29(12), 1989-1993, 1999. [Pg.620]

See other pages where Fiber reinforced cement is mentioned: [Pg.834]    [Pg.205]    [Pg.301]    [Pg.302]    [Pg.303]    [Pg.208]    [Pg.306]    [Pg.326]    [Pg.470]    [Pg.41]    [Pg.584]   
See also in sourсe #XX -- [ Pg.326 ]



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