Realistic prediction of concrete creep is of crucial importance for durability and long-term serviceability of concrete structures. To date, research about the behaviour of self-compacting concrete (SCC) members, especially concerning the long-term performance, is rather limited. SCC is quite different from conventional concrete (CC) in mixture proportions and applied materials, particularly in the presenceof aggregate which is limited. Hence, the realistic prediction of creep strains in SCC is an important requirement for the design process of this type of concrete structures. This study reviews the accuracy of the conventional concrete (CC) creep prediction models proposed by the international codes of practice, including: CEB-FIP (1990), ACI 209R (1997), Eurocode 2 (2001), JSCE (2002), AASHTO (2004), AASHTO (2007), AS 3600 (2009). Also, SCC creep prediction models proposed by Poppe and De Schutter (2005), Larson (2007) and Cordoba (2007) are reviewed. Further, new creep prediction model based on the comprehensive analysis on both of the available models i.e. the CC and the SCC is proposed. The predicted creep strains are compared with the actual measured creep strains in 55 mixtures of SCC and 16 mixtures of CC.

1 Heirman, G., "Time-dependent deformations of limestone powder type self-compacting concrete" 3 : 2945-2956, 2008

2 Le Roy, R., "The AFREM code type model for creep and shrinkage of high performance concrete" 1996

3 Farhad Aslani, "Stress-strain relationships for steel fiber reinforced selfcompacting concrete" 국제구조공학회 46 (46): 295-322, 2013

4 "Standard specifications for concrete structure"

5 Khayat, K.H., "Shrinkage of precast, prestressed Self-Consolidating Concrete" 107 (107): 231-238, 2010

6 Aslani, F., "Shrinkage behavior of self-compacting concrete" 13 (13): 407-419, 2012

7 Loser, R., "Shrinkage and restrained shrinkage cracking of self-compacting concrete compared to conventionally vibrated concrete" 42 : 71-82, 2009

8 Farhad Aslani, "Short term bond shear stress and cracking control of reinforced self-compacting concrete one way slabs under flexural loading" 사단법인 한국계산역학회 13 (13): 709-737, 2014

9 Oliva, M.G., "Self-consolidating concrete: creep and shrinkage characteristics" University of Wisconsin 2008

10 Aslani, F., "Self-compacting concrete incorporating steel and polypropylene fibers:compressive and tensile strengths, moduli of elasticity and rupture, compressive stress-strain curve, and energy dissipated under compression" 53 : 121-133, 2013

11 Altan, S., "Self-compacting concrete for precast/prestressed concrete applications" Louisiana State University 1999

12 Aslani, F., "Relationship between deflection and crack mouth opening displacement of self-compacting concrete beams with and without fibres" 2014

13 Schindler, A. K., "Properties of self-consolidating concrete for prestressed members" 104 (104): 53-61, 2007

14 Neville, A. M., "Properties of Concrete" John Wiley and Sons, Inc 1996

15 ACI 209R, "Prediction of creep, shrinkage, and temperature effects in concrete structures" American Concrete Institute 209R 1997

16 "Prediction of creep, shrinkage, and temperature effects in concrete structures" American Concrete Institute 209 1994

17 Naito, C. J., "Performance of bulb-tee girders made with self-consolidating concrete" 51 (51): 72-85, 2006

18 Aslani, F., "Mechanical properties of conventional and self-compacting concrete: An analytical study" 36 : 330-347, 2012

19 Farhad Aslani, "Long-term flexural cracking control of reinforced self- compacting concrete one way slabs with and without fibres" 사단법인 한국계산역학회 14 (14): 419-443, 2014

20 Issa, M., "Laboratory performance evaluation of selfconsolidating concrete" 2005

21 AASHTO, "Interim bridge design specifications and commentary"

22 CEB-FIP, "High-strength concrete state of the art report" London 1990

23 Aslani, F., "Flexural toughness characteristics of self-compacting concrete incorporating steel and polypropylene fibers" 15 (15): 269-286, 2014

24 Zheng, J., "Experimental study on factors influencing creep of Self-Compacting Concrete" 2009

25 Aslani, F., "Experimental and numerical study of time-dependent behaviour of reinforced selfcompacting concrete slabs" University of Technology 2014

26 Larson, K., "Evaluation the time-dependent deformation and bond characteristics of a selfconsolidating concrete mix and the implication for pretensioned bridge applications" Kansas State University 2006

27 Suksawang, N., "Evaluation of mechanical properties for selfconsolidating, normal, and high-performance concrete" 6-45, 2006

28 Landsberger, G.A., "Evaluation of creep prediction models for selfconsolidating concrete" 2 : 605-610, 2007

29 Horta, A., "Evaluation of Self-Consolidating Concrete for bridge structures applications" Georgia Institute of Technology 2005

30 "European pre-standard ENV 1992-1-1: Design of concrete structures, Part 1: General rules and Rules for Buildings"

31 Aslani, F., "Effects of specimen size and shape on compressive and tensile strengths of selfcompacting concrete with or without fibers" 65 (65): 914-929, 2013

32 Khayat, K. H., "Effects of antiwashout admixtures on fresh concrete properties" 92 (92): 164-180, 1995

33 Persson, B., "Creep of self-compacting concrete" 2005

34 Mazzotti, C., "Creep and shrinkage of self-compacting concrete: Experimental behavior and numerical model" 667-673, 2009

35 Seng, V., "Creep and shrinkage of self-compacting concrete with different limestone powder contents" 2005

36 Aslani, F., "Creep and shrinkage of self-compacting concrete with and without fibers" 11 (11): 251-265, 2013

37 Vidal, T., "Creep and shrinkage of self-compacting concrete and comparative study with model code" 54 : 541-546, 2005

38 Poppe, A.M., "Creep and shrinkage of self-compacting concrete" 563-568, 2001

39 Aslani, F., "Creep and shrinkage of high strength self-compacting concrete experimental and numerical analysis" 65 (65): 1044-1058, 2013

40 Cordoba, B., "Creep and shrinkage of Self-Consolidating Concrete" University of Wyoming 2007

41 Poppe, A.M., "Creep and shrinkage of Self-Compacting Concrete" 2005

42 Mazzotti, C., "Creep and shrinkage of Self Compacting Concrete" 2006

43 Chopin, D., "Creep and Shrinkage of Heat-cured Selfcompacting Concrete" 2003

44 Turcry, P., "Cracking tendency of Self-Compacting Concrete subjected to restrained shrinkage: experimental study and modelling" 18 (18): 46-54, 2006

45 "Concrete structures, Standards Australia"

46 Klug, Y., "Comparison of the hardened properties of self-compacting and normal vibrated concrete" 2003

47 Kim, Y. H., "Characterization of Self-consolidating Concrete for the Design of Precast, Pretensioned Bridge Superstructure Elements" Texas A&M University 2008

48 AASHTO, "Bridge design specifications and commentary"

49 Aslani, F., "Bond characteristics of steel fibre reinforced self-compacting concrete" 39 (39): 834-848, 2012

50 Aslani, F., "Bond characteristics of reinforcing steel bars embedded in selfcompacting concrete" 13 (13): 279-295, 2012

51 Aslani, F., "Bond behavior of reinforcement in conventional and self-compacting concrete" 15 (15): 2033-2051, 2012

52 Ouchi, M., "Applications of Self-Compacting Concrete in Japan, Europe and the United States" ISHPC 2003

53 Persson, B., "A comparison between mechanical properties of SCC and the corresponding properties of normal concrete" 31 (31): 193-198, 2001