Libros sobre el tema "Concrete Fatigue"

Mallett, G. P. Fatigue of reinforced concrete. London: HMSO, 1991.

Chia, Way Seng. Effect of prestress on the fatigue life of concrete. [Austin, Tex.]: Center for Transportation Research, Bureau of Engineering Research, University of Texas at Austin, 1986.

Association, British Cement. Deflections in concrete slabs and beams: Report of a joint project of the British Cement Association, The Concrete Society and The Concrete Centre. Camberley [England]: Concrete Society, 2005.

E, Romer Andrew, AWWA Research Foundation y United States. Environmental Protection Agency., eds. Failure of prestressed concrete cylinder pipe. Denver, Colo: Awwa Research Foundation, 2008.

E, Romer Andrew, AWWA Research Foundation y United States. Environmental Protection Agency., eds. Failure of prestressed concrete cylinder pipe. Denver, Colo: Awwa Research Foundation, 2008.

E, Romer Andrew, AWWA Research Foundation y United States. Environmental Protection Agency., eds. Failure of prestressed concrete cylinder pipe. Denver, Colo: Awwa Research Foundation, 2008.

Muller, J. F. Fatigue of prestressed concrete beams with inclined strands. Brisbane: University ofQueensland, Dept. of Civil Engineering, 1992.

1926-, Zia Paul, North Carolina. Dept. of Transportation. Research and Analysis Group. y North Carolina State University. Dept. of Civil Engineering., eds. Fatigue performance of large-sized long-span prestressed concrete girders impaired by transverse cracks. Raleigh, NC: North Carolina Dept. of Transportation, Research & Analysis, 2002.

Organisation for Economic Co-Operation and Development., ed. OECD full-scale pavement test. Paris, France: Organisation for Economic Co-Operation and Development, 1991.

Tejchman, Jacek. Simulations of strain localization in plain and reinforced concrete with enhanced continuum models. Gdańsk: Wydawn. Politechniki Gdańskiej, 2010.

Sidney, Mindess, Shah S. P y Materials Research Society, eds. Cement-based composites: Strain rate effects on fracture : symposium held December 4-5, 1985, Boston, Massachusetts, USA. Pittsburgh, Pa: Materials Research Society, 1986.

ISFF, '91 (1991 Madras India). Fatigue and fracture in steel and concrete structures: ISFF '91 proceedings. New Delhi: Oxford & IBH Pub. Co., 1992.

Vares, Sirje. Fibre-reinforced high-strength concrete. Espoo, Finland: Technical Research Centre of Finland, 1993.

Institution of Civil Engineers (Great Britain), ed. Concrete reinforcement corrosion: From assessment to repair decisions. London: Thomas Telford, 2002.

Laboratories, Sandia National, Nuclear Power Engineering Corporation. Systems Safety Dept. y U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research., eds. Pretest Round Robin analysis of a prestressed concrete containment vessel model. Washington, DC: U.S. Nuclear Regulatory Commission, 2000.

ISFF '91 (1991 Madras, India). Fatigue and fracture in steel and concrete structures: ISFF '91 proceedings, December 19-21, 1991, Madras, India. Editado por Madhava Rao A. G, Appa Rao, T. V. S. R. y Structural Engineering Research Centre, Madras. Rotterdam, Netherlands: A.A. Balkema, 1992.

Symposium, on Fracture Mechanics for Hydroelectric Power Systems (1994 Vancouver B. C. ). Fracture mechanics for hydroelectric power systems: Proceedings of the symposium, Vancouver, B.C., Canada, September, 1994. [Vancouver]: Powertech Labs Inc., 1994.

Luís, Borges, Davaine Laurence 1975-, European Convention for Constructional Steelwork y Associação Portuguesa de Construcao Metalica e Mista, eds. Fatigue design of steel and composite structures: Eurocode 3: Design of Steel Structures, Part 1-9 Fatigue, Eurocode 4: Design of Composite Steel and Concrete Structures. [Brussels, Belgium]: European Convention for Constructional Steelwork, 2011.

(Japan), Doboku Kenkyūjo. Kōshōban kyōryō no hirō taikyūsei kōjō gijutsu ni kansuru kyōdō kenkyū (sono 2) hōkokusho: SFRC hosōshita kōshōban jitsudai kyōshitai no seiteki saika oyobi idōrin kajū shiken. [Tsukuba-shi]: Doboku Kenkyūjo, 2010.

(Japan), Doboku Kenkyūjo. Kōshōban kyōryō no hirō taikyūsei kōjō gijutsu ni kansuru kyōdō kenkyū (sono 2.3.4) hōkokusho: SFRC hosō ni yoru kisetsu kōshōban no hokyō ni kansuru sekkei sekō manyuaru (an). [Tsukuba-shi]: Doboku Kenkyūjo, 2009.

Donald, Davidson D., Magoon Orville T y American Society of Civil Engineers. Committee on Rubble Mound Structures., eds. Stresses in concrete armor units: Derived from a seminar at the Waterways Experiment Station, Coastal Engineering Research Center, Vicksburg, Mississippi, U.S.A., November 7-8, 1989. New York, N.Y: American Society of Civil Engineers, 1990.

Jaime, Planas, ed. Fracture and size effect in concrete and other quasibrittle materials. Boca Raton: CRC Press, 1998.

Fatigue of concrete. Detroit, Mich: American Concrete Institute, 1989.

Fatigue of Reinforced Concrete. Stationery Office Books, 1991.

Paterson, W. S. y M. J. Dill. Fatigue Strength of Reinforced Concrete in Seawater. Stationery Office Books, 1988.

Jackson, N. Mike. Analysis of thermal fatigue distress of asphalt concrete pavements. 1992.

Price, W. I. J., E. C. Hambly y A. H. Tricklebank. Review of Fatigue in Concrete Marine Structures (Offshore Technology Report). Stationery Office Books, 1989.

Considerations for Design of Concrete Structures Subjected to Fatigue Loading. Amer Concrete Inst, 1987.

Fatigue and fracture in steel and concrete structures: ISFF '91 proceedings. Oxford & IBH Pub. Co, 1992.

Pullar-Strecker, Peter. Concrete Reinforcement Corrosion: ICE Design and Practice (Ice Design and Practice Guide). Thomas Telford Services Ltd, 2003.

Jerome, Elisabetta Lidia. Analysis of a proposed six inch diameter Split Hopkinson Pressure Bar. 1991.

Murali, V. The crack bridging ability and fatigue resistance of coatings on reinforced concrete stuctures. 1995.

Jung, Duhwoe. Selection and performance evaluation of a test method to assess thermal cracking resistance of asphalt-aggregate mixtures. 1993.

Pretest round robin analysis of a prestressed concrete containment vessel model. Tokyo, Japan: Systems Safety Dept., Nuclear Power Engineering Corp., 2000.

Advances in Fatigue, Fracture and Damage Assessment of Materials (Advances in Damage Mechanics). WIT Press (UK), 2005.

Pretest analysis of a 1:4-scale prestressed concrete containment vessel model. Washington, DC: The Office, 2000.

ECCS - European Convention for Constructional Steelwork. Fatigue Design of Steel and Composite Structures : Eurocode 3 : Design of Steel Structures, Part 1 - 9 Fatigue; Eurocode 4: Design of Composite Steel and Concrete Structures. Ernst & Sohn Verlag fur Architektur und Technische, Wilhelm, 2018.

ECCS - European Convention for Constructional Steelwork. Fatigue Design of Steel and Composite Structures : Eurocode 3 : Design of Steel Structures, Part 1 - 9 Fatigue; Eurocode 4: Design of Composite Steel and Concrete Structures. Ernst & Sohn Verlag fur Architektur und Technische, Wilhelm, 2018.

Davaine, Laurence, Alain Nussbaumer y Luis Borges. Fatigue Design of Steel and Composite Structures : Eurocode 3 : Design of Steel Structures, Part 1-9 Fatigue; Eurocode 4: Design of Composite Steel and Concrete Structures. Ernst & Sohn Verlag fur Architektur und Technische, Wilhelm, 2012.

ECCS - European Convention for Constructional Steelwork. Fatigue Design of Steel and Composite Structures : Eurocode 3 : Design of Steel Structures, Part 1 - 9 Fatigue; Eurocode 4: Design of Composite Steel and Concrete Structures. Ernst & Sohn Verlag fur Architektur und Technische, Wilhelm, 2018.

Davaine, Laurence, Alain Nussbaumer y Luis Borges. Fatigue Design of Steel and Composite Structures : Eurocode 3 : Design of Steel Structures, Part 1-9 Fatigue; Eurocode 4: Design of Composite Steel and Concrete Structures. Ernst & Sohn Verlag fur Architektur und Technische, Wilhelm, 2012.

Davaine, Laurence, Alain Nussbaumer y Luis Borges. Fatigue Design of Steel and Composite Structures : Eurocode 3 : Design of Steel Structures, Part 1-9 Fatigue; Eurocode 4: Design of Composite Steel and Concrete Structures. Ernst & Sohn Verlag fur Architektur und Technische, Wilhelm, 2012.

Davaine, Laurence, Alain Nussbaumer y Luis Borges. Fatigue Design of Steel and Composite Structures : Eurocode 3 : Design of Steel Structures, Part 1-9 Fatigue; Eurocode 4: Design of Composite Steel and Concrete Structures. Ernst & Sohn Verlag fur Architektur und Technische, Wilhelm, 2012.

ECCS - European Convention for Constructional Steelwork. Fatigue Design of Steel and Composite Structures : Eurocode 3 : Design of Steel Structures, Part 1 - 9 Fatigue; Eurocode 4: Design of Composite Steel and Concrete Structures. Wiley & Sons, Limited, John, 2018.

Fatigue Design of Steel and Composite Structures Eurocode - Design of Steel Structures: Design of Composite Steel and Concrete Structures. Wiley-VCH Verlag GmbH, 2018.

Hodgkiess, T. y P. D. Arthur. Fatigue and Corrosion Effects in Reinforced Concrete Beams Partially Submerged in Seawater and Subjected to Reverse Bending (Offshore Technology Report). Stationery Office Books, 1988.

Handbook of Materials Failure Analysis with Case Studies from the Chemicals, Concrete and Power Industries. Elsevier Science & Technology Books, 2015.

Khan, Anish, ed. Sustainable Natural Fiber Composites. Materials Research Forum LLC, 2022. http://dx.doi.org/10.21741/9781644901854.

Oehlers, Deric y Rudolph Seracino. Design of FRP and Steel Plated RC Structures: Retrofitting Beams and Slabs for Strength, Stiffness and Ductility. Elsevier Science, 2004.

Design of FRP and Steel Plated RC Structures: Retrofitting Beams and Slabs for Strength, Stiffness and Ductility. Elsevier Science, 2004.