Fibras como Elemento Estructural para el Refuerzo del HormigÃ³n

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10. Referencias bibliográficas. - Li Victor C.-Large Volume, High-Performance Applications Of Fibers In Civil Engeneering (2000)- ACE-MRL, Departement of Civil and Environmental Engineering, University of Michigan, Ann Arbor, Michigan 48109; - Liang R. Y. and Galvez E.. 1990. High Strength, High Denier Discrete Polymer Fiber in Cementitious Composites. Proceedings of the First Materials Engineering Congress, held Aug. 13-15, 1990, Denver, CO; Ed. by Bruce A. Suprenant, ASCE, New York, Vol. 2, pp. 894-902. - Lim T. Y., Paramavisam P., and Lee S. L.. 1987. Analytical Model for Tensile Behavior of Steel Fiber Concrete. ACI Materials Journal, Jul-Aug, Vol. 84, No. 4, pp. 286-298. - Limit T.Y., Paramasivam, P. & Lee, S.L., - Shear and moment capacities of reinforced steel-fibreconcrete beams. Magazine of Concrete Research, 39 (1987) 148-60 - Lin W. S. and Hsu T. C.. 1990. Uni-axial and Bi-axial Compressive Fatigue of Fiber Concrete. Proceedings of the First Materials Engineering Congress, held on Aug 13-15, 1990, Denver,CO; Ed. by Suprenent; ASCE, New York, Vol. 2, pp.1172-1181. - Maage, M., - Fibre bond and friction in cement and concrete. In Testing and Test Methods of Fibre Cement Composites, ed. R.N. Swamy. The Construction Press Ltd. Lancaster, 1978, pp. 329-36 Malmberg B. and Skarendahl A.. 1978. Method of Studying the Cracking of Fibre Concrete Under Restrained Shrinkage. Testing and Test Methods of Fibre Cement Composites. RILEM Symposium, The Construction Press, Lancaster, England, 545 pp. - Mangat P. S. and Azari A. M.. 1985. A Theory for the Creep of Steel Fibre Reinforced Cement Matrices Under Compression. Journal of Materials Science, pp. 1119-1133. - Mangat, P.S. & Azari, M.M., - Influence of steel fibre and Stirrup reinforcement on the properties of concrete in compression members. Int. J. Cement Composites and Lightweight Concrete, 7 (1985) 183-92 - Mangat, P.S. & Azari, M.M., - Influence of steel fibre reinforcement on the fracture behaviour of concrete in compression. Int. J. Cement Composites and Lightweight Concrete, 6 (1984) 219-32 - Mangat, P.S. & Azari, M.M., - Theory of free shrinkage of steel fibre reinforced cement mortars. Materials Science, 14 (1984) 2103-94 - Mangat, P.S. & Gurusamy, K., - Steel fibre reinforced concrete for marine applications. In Proceedings 4th International Conference on Behaviour of Offshore Structures, Delft, Elsevier Science Publishers 1985, pp. 867-79 - Mangat, P.S. & Gurusamy, K., Corrosion resistance of steel fibres in concrete under marine exposure. Cement and Concrete Research, 18 (1988) 44-54 237
10. Referencias bibliográficas. - Mansur M. A., Ong C. G., and Paramasivam P.. 1986. Shear Strength of Fibrous Concrete Beams without Stirrups. Journal of Structural Engineering, Vol. 112, No. 9, pp. 2066-2079. - MASSAZZA F. & COPPETTI G., - Durabilità dei materiali cementizi fibrorinforzati, , Italcementi, n° 7-8/91, L’Edilizia - Matershläger A. & Bergmeister K., - Fiber Added Concrete-University of Applied Sciences, Institute of Structural Engineering A-1190 Vienna-2nd Int. PhD Symposium in Civil Engineering 1998 Budapest; - McKee D. C.. 1969. Properties of an Expansive Cement Mortar Reinforced with Random Wire Fibers. Ph.D. Thesis, University of Illinois, Urbana. - MEDA A. and PLIZZARI G..A., “A new design approach for SFRC slabs on grade based on fracture mechanics”, ACI Structural Journal, V. 101 (3), May-June 2004, pp. 298-303. - Meda A., “Yield Line Method for SFRC Slab on Grade Design”, Studies and Researches, Milan University of Technology, V. 24, 2003, pp. 223-239. - Meda A., Plizzari G. A. – 2001, “La progettazione delle pavimentazioni in FRC mediante un metodo basato sulla meccanica della frattura”, La meccanica della frattura nel calcestruzzo ad alte prestazioni IGF. Brescia, 14 novembre. - Meda A., Plizzari G.A. – 2001, “Un nuovo metodo di calcolo per le pavimentazioni industriali in calcestruzzo fibrorinforzato”, L’Edilizia, 5. - Meda A., Plizzari G.A., Sorelli L. and Rossi B., “Fracture mechanics for SFRC pavement design”, in Concrete structures: the challenge of creativity, Forbes, J.G. and Virlogeux, M. Eds., Proceedings of the fib Symposium 2004, Avignone (France), April 26-28 2004, pp. 1023-1030. - Mindess S. and Young F. J,. 1981. Concrete. Prentice-Hall, Inc., Englewood Cliffs, N.J. pp. 521- 522. - Minosaku K.. 1991. Applications of FRP Materials to Prestressed Concrete Bridges and Other Civil Structures. Concrete Journal (Tokyo), Nov, Vol. 29, No. 11, pp. 56-63. (in Japanese) - Mizutani, Noritake, Nakai, and Masuko. 1991. Design and Construction of Demonstration Bridge Using AFRP Rods as Tendons. Japan Concrete Institute Symposium on Effective Utilization of Prestress Theory and Technology, July, pp. (in Japanese) - Mobasher B., Castro-Montero A., and S.P. Shah. 1990a. Study of Fracture in Fiber Reinforced Cement-Based Composites Using Laser Holographic Interferometry. Experimental Mechanics, Vol. 30, No. 6, pp. 286-294. 238
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F i b r a s c o m o E l e m e n t o
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Índice. 5.4 - Diseño de revestimi
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1 - Introducción. La finalidad de
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2. Fibras como elemento estructural
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3. Hormigón fibroreforzado; Elemen
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4 - Diseño y consideraciones parti
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5. Aplicaciones del hormigón refor
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6. Aplicaciones en hormigón fibror
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Page 219 and 220: 9. Autores ANTONIO GALLOVICH SARZAL
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Page 239: Maccaferri de Argentina. Tel.: 54 (
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