SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Article References

FANOURAKIS, G C. Validation of international concrete creep prediction models by application to South African concretes. J. S. Afr. Inst. Civ. Eng. [online]. 2011, vol.53, n.2, pp. 23-30. ISSN 1021-2019.

    Alexander, M G 1994. Deformation and volume change of hardened concrete. In: Fulton's concrete technol ogy, 7th ed, Addis, B J (Ed), Midrand, South Africa: Portland Cement Institute, 123 p. [ Links ]

    ACI (American Concrete Institute) 1992. Prediction of creep, shrinkage and temperature effects in concrete structures. Report ACI209, R-92, Detroit, US: ACI. [ Links ]

    ACI (American Concrete Institute) 2008. Guide for modeling and calculating shrinkage and creep in hardened concrete, Report ACI 209, R-08, Detroit; US: ACI. [ Links ]

    AS 3600 1988. Concrete structures - AS 3600 1988. Sydney: Standards Association of Australia. [ Links ]

    AS 3600 2001. Concrete structures - AS 3600 2001. Sydney: Standards Association of Australia. [ Links ]

    AS 3600 2009. Concrete structures - AS 3600 2009. Sydney: Standards Association of Australia. [ Links ]

    Bazant, Z P & Baweja, S 1995. Creep and shrinkage model for analysis and design of concrete structures. Model B3. Draft RILEM Recommendation, Materials and Structures, Vol 28, pp 357-365, 415-430 & 488-495, with Errata in Vol 29 (1996), p 126. [ Links ]

    Bazant, Z P & Panula, L 1979. Practical prediction of time dependent deformations of concrete, Parts I-VI. Materials and Structures, 12: 169-183. [ Links ]

    BS 1881 1983. Testing concrete. Part 121: Method for determination of static modulus of elasticity in compression. London: British Standards Institution (BSI). [ Links ]

    BS 8110 1985. Structural use of concrete. Part 2: Code of practice for design and construction. London: British Standards Institution (BSI). [ Links ]

    BS EN 1992-1-1 2004. Eurocode 2: Design of concrete structures. Part 1-1: General - common rules for buildings and civil engineering structures. London: British Standards Institution (BSI). [ Links ]

    CEB-FIP (Comité Européen du Béton - Fédération Internationale de la Précontrainte) 1970. International recommendations for the design and construction of concrete structures: Principles and recommendations. Proceedings, Sixth FIP Congress, Prague, Czech Republic, pp 27-28. [ Links ]

    CEB-FIP (Comité Euro-International du Béton -Fédération Internationale de la Précontrainte) 1978. International system of unified standard codes of practice for structures, Vol II: CEB-FIP model code for concrete structures, 3rd ed. Lausanne, Switzerland, pp 56 & 331-344. [ Links ]

    CEB-FIP (Comité Euro-International du Béton -Fédération Internationale de la Précontrainte) 1990. CEB-FIP model code 1990, 1st draft. Lausanne, Switzerland, (Information Bulletin, No 195), pp 2-3 & 2-28-2-40. [ Links ]

    CEB-FIP (Comité Euro-International du Béton -Fédération Internationale du Béton) 1999. Structural Concrete: Textbook on behaviour, design and performance. Updated Knowledge of CEB-FIP model code 1990. Lausanne, Switzerland, (FIB Bulletin 2(2)), pp 35-52. [ Links ]

    Davis, D E & Alexander, M G 1992. Properties of aggregates in concrete, Part 2. Sandton, South Africa: Hippo Quarries Technical Publication, pp 1-27, 42-43 & 46-47. [ Links ]

    Fanourakis, G C 1998. The influence of aggregate stiffness on the measured and predicted creep behaviour of concrete. MSc (Eng) dissertation, Johannesburg: University of the Witwatersrand. [ Links ]

    Fanourakis, G C & Ballim, Y 2006. An assessment of the accuracy of nine design models for predicting creep in concrete. Journal of the South African Institution of Civil Engineering, 48(4): 2-8. [ Links ]

    Gardner, N J 2004. Comparison of prediction provisions for drying shrinkage and creep of normal strength concretes. Canadian Journal for Civil Engineering, 31(5): 767-775. [ Links ]

    Gardner, N J & Lockman, M J 2001. Design provisions for drying shrinkage and creep of normal strength concrete. ACI Materials Journal, 98(2): 159-167. [ Links ]

    Gardner, N J & Zhao, J W 1993. Creep and shrinkage revisited. ACI Materials Journal, 90(3): 236-246. [ Links ]

    Gilbert, R I 2002. Creep and shrinkage models for high strength concrete - Proposals for inclusion in AS 3600. Australian Journal of Structural Engineering, 4(2): 96-106. [ Links ]

    SABS 0100: 1992. Code of practice for the structural use of concrete. Part 1: Design. Pretoria: South African Bureau of Standards. [ Links ]

    SANS 10100: 2000. The structural use of concrete. Part 1: Design. Pretoria: South African Bureau of Standards. [ Links ]