Fibras como Elemento Estructural para el Refuerzo del HormigÃ³n

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10. Referencias bibliográficas. - Reich, R. W., Cervenka, J. and Saouma, V. E., “MERLIN, A three-dimensional finite element program based on a mixed-iterative solution strategy for problems in elasticity, plasticity, and linear and nonlinear fracture mechanics”, EPRI Vol. I Mesh Generator’s Manual; Vol. II User’s Manual; Vol. III Example’s manual; Vol. IV Programmer’s Manual; Vol. V Theory Manual, Palo Alto, CA, 1994. - Reinhardt H. W. and Naaman A. E. (Ed.). 1992. High Performance Fiber Reinforced Cement Composites. Proceedings of the International Workshop held by RILEM, ACI and others, June 23-26, 1991, Mainz, Germany; Ed. by H.W. Reinhardt and A.E. Naaman; E &FN Spon, London, xviii, 565 pp. (RILEM Proceedings Vol.15). - Rider, R. & Heidersbach, R., - Degradation of metal-fiber-reinforced concrete exposed to a marine environment. In Corrosion of Reinforcing Steel in concrete, ed. D.E. Tonini & J. M. Gaidis. ASTM STP 713, American Society for Testing and Materials, 1980, pp. 75-92. - Rilem TC 162 TDF (2002), “Test and Design Methods for Steel Fiber Reinforced Concrete. Design of Steel Fibre Reinforced Concrete using the s-w method: Principles and Applications”, Materials and Structures, 35, 262-278. - Rizkalla S. H. and Tadros G.. 1994. A Smart Highway Bridge in Canada. Concrete International, Jun, pp. 42-44. - Roelfstra P. E. and Wittmann F. H., ‘Numerical method to link strain softening with failure of concrete’, Fracture Toughness and Fracture Energy of Concrete, edited by F.H. Wittmann, Elsevier, Amsterdam, 1986, 163 175. - Romualdi J. P. and Batson G. B.. 1963. Mechanics of Crack Arrest in Concrete. Journal of Engineering Mechanics, Jun, Vol. 89, No. EM3, pp. 147-168. - Romualdi J. P. and Mandel J. A.. 1964. Tensile Strength of Concrete Affected by Uniformly Distributed Closely Spaced Short Lengths of Wire Reinforcement. ACI Journal, Jun, Vol. 61, No. 6, pp. 657-671. - Romualdi, J.P. & Mandel, J.A., - Tensile strength of concrete affected by uniformly distributed closely spaced short lengths of wire reinforcement. J. American Concrete Institute, 61 (1964) 657-71. - Ronzi A. - Calcestruzzo Armato con Fibre di Acciaio Dramix ® -Leon Bekaert S.p.A., Divisione Fili Speciali per Edilizia, aprile 1995; - Rossi P. e Chanvillard G. Eds. (2000), “5th RILEM Symp. on Fibre Reinforced Concretes (BEFIB 2000)”, RILEM Publications S.A.R.L., Cachan (Francia), 810 pp. - Schnütgen, B. (2003), “Design of Precast Steel Fibre Reinforced Tunnel Elements”, in “Test and Design Methods for Steel Fibre Reinforced Concrete - Background and Experiences”, Proc. of the RILEM TC 162-TDF Workshop, Bochum (Germany), 20-21 Marzo, pp. 145-152. 243
10. Referencias bibliográficas. - Schnütgen, B. e Vandewalle L. Eds (2003), “Test and Design Methods for Steel Fibre Reinforced Concrete - Background and Experiences”, Proc. of the RILEM TC 162-TDF Workshop, Bochum (Germany), 20-21 Marzo, 209 pp. - Schrader E. K.. 1984. Design Methods for Pavements With Special Concretes. Fiber Reinforced Concrete. American Concrete Institute, Detroit, MI, pp. 197-212. (ACI SP-81) - Schrader E. K.. 1985. Fiber Reinforced Concrete Pavements and Slabs. Steel Fiber Concrete, US- Sweden Joint Seminar (NSF-STU), Stockholm, Jun, pp. 109-131. - Schrader, E.K. & Munch, A.V., - Fibrous concrete repair of cavitation damage. ASCE Journal of the Construction Divisio, 102 (1976) 385-99. - Schupack M.. 1985. Durability of Steel Fiber Reinforced Concrete Exposed to Severe Environments. Steel Fiber Concrete, US-Sweden Joint Seminar (NSF-STU), Stockholm, Jun, pp. 479-496. - Schwartz M. M.. 1992. Composite Materials Handbook. McGraw-Hill, Inc, New York. - Sekijima K. and Hiraga H.. 1990. Fiber Reinforced Plastics Grid Reinforcement for Concrete Structures. Proceedings of the IABSE Symposium, Brussels, pp. 593-598. - Sen R., Mariscal D., and Shahawy M.. 1993. Investigation of S-2 Glass/Epoxy Strands in Concrete. Proceedings of ACI Symposium, held on Mar 28-31, 1993, Vancouver, Canada; Ed. by A. Nanni and C. W. Dolan; pp. 15-34. (ACI SP 138). - Shah P., Stroeven P., Dalhuisen D., and Van Stekelenburg P.. 1978. Complete Stress-Strain Curves for Steel Fiber Reinforced concrete in Uniaxial Tension and Compression. Testing and Test Methods of Fibre Cement Composites. RILEM Symposium. The Construction Press, Lancaster, England, pp. 399-408. - Shah S. P. and Grzybowski M.. 1989. Shrinkage Cracking of Fiber Reinforced Concrete. NSF Center for Science and Technology of Advanced Cement-Based Materials. (Private Communication) Shah S. P. and Naaman A. E.. 1976. Mechanical Properties of Glass and Steel Fiber Reinforced Motar. ACI Journal, Jan, Vol. 73, No. 10, pp. 50-53. - Shah S. P. and Rangan B. V.. 1971. Fiber Reinforced Concrete Properties. ACI Journal, Feb, Vol. 68, No. 2, pp. 126-135. - Shah S. P. and Rangan B.V.. 1970. Effect of Reinforcement on Ductility of Concrete. Journal of Structural Engineering, Jun, Vol. 96, No. ST6, pp. 1167-1184. - Shah S. P.. 1991. Do Fibers Increase the Tensile Strength of Cement-Based Matrixes ACI Materials Journal, Nov-Dec, Vol. 88, No. 6, pp. 595-602. 244
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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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Page 219 and 220: 9. Autores ANTONIO GALLOVICH SARZAL
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Page 239: Maccaferri de Argentina. Tel.: 54 (
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Fibras como Elemento Estructural para el Refuerzo del HormigÃ³n

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