참고문헌 (55)

1. 10.14359/3144 ACI committee 544, “Design consideration for steel fiber reinforced concrete (ACI 544.4R-88)”. ACI Struct J 1988; 85 (5): p. 563-80. 

   상세보기

2. ACI J Proc Romualdi 61 6 657 1964 Tensile strength of concrete affected by uniformly distributed and closely spaced short lengths of wire reinforcement 

3. ACI Mater J Lim 84 4 286 1987 Analytical model for tensile behavior of steel-fiber concrete 

   상세보기

4. ACI Struct J Abrishami 94 6 769 1997 Influence of steel fibers on tension stiffnening 

5. Voo JYL, Foster SJ, “Variable engagement model for fibre reinforced concrete in tension”, UNICIV Report No. R-420 June 2003, The University of New South Wales, Sydney, Australia, 2003, p. 1-86. 

6. Mag Concr Res Ganesan 66 6 268 2014 10.1680/macr.13.00273 Influence of steel fibers on tension stiffening and cracking of reinforced geopolymer concrete 

   상세보기

7. ACI Struct J Adebar 94 1 68 1997 Shear tests of fiber concrete beams without stirrups 

8. ACI Struct J Narayanan 84 3 216 1987 Use of steel fibers as shear reinforcement 

   상세보기

9. ACI Struct J Kwak 99 4 530 2002 Shear strength of steel fiber- reinforced concrete beams without stirrups 

   상세보기

10. ACI Struct J Ashour 89 2 176 1992 Shear behavior of high-strength fiber reinforced concrete beams 

11. Mag Concr Res Lim 39 140 148 1987 10.1680/macr.1987.39.140.148 Shear and moment capacity of reinforced steel-fiber-concrete beams 

    상세보기

12. Construct Build Mater Chalioris 43 1 317 2013 10.1016/j.conbuildmat.2013.02.039 Analytical approach for the evaluation of minimum fibre factor required for steel fibrous concrete beams under combined shear and flexure 

    상세보기

13. Cem Concr Compos Gunneswara Rao 27 4 493 2005 10.1016/j.cemconcomp.2004.03.006 Analytical model for the torsional response of steel fiber reinforced concrete members under pure torsion 

    상세보기

14. Collins 766 1991 Prestressed concrete structure 

15. ACI J Proc Swamy 76 2 327 1979 Influence of fiber reinforcement on dowel resistance to shear 

16. ACI Mater J Soroushian 87 5 433 1988 Distribution and orientation of fibers in steel fiber reinforced concrete 

17. Hsu 500 2010 Unified theory of concrete structures 

18. Hsu 516 1984 Torsion of reinforced concrete 

19. Eng Struct Jeng 32 9 1944 2009 10.1016/j.engstruct.2009.02.038 A softened membrane model for torsion in reinforced concrete members 

    상세보기

20. J Struct Eng ASCE Narayanan 112 1 53 1986 10.1061/(ASCE)0733-9445(1986)112:1(53) Torsion in beams reinforced with bars and fibers 

    상세보기

21. ACI Struct J El-Niema 90 5 489 1993 Fiber reinforced concrete beams under torsion 

    상세보기

22. Craig RJ, Dunya S, Riaz J, Shirazi H, Torsional behavior of reinforced fibrous concrete beams, fiber reinforced concrete-international symposium, SP-81, American Concrete Institute, Detroit; 1984, p. 17-49. 

23. Eng Struct Yang 56 1 2013 Torsional behavior of ultra-high performance concrete squared beams 

24. Int J Cem Compos Lighweight Concr Mansur 4 4 39 1982 10.1016/0262-5075(82)90006-9 Steel fibre reinforced concrete beams in pure torsion 

    상세보기

25. Struct Eng Narayanan 63B 1 14 1985 A space truss model for fibre-concrete beams in torsion 

26. ACI committee 318, Building code requirements for reinforced concrete (ACI 318-83), American Concrete Institute, 1983, 112p. 

27. ACI Struct J Mansur 86 1 36 1989 Torsional response of reinforced fibrous concrete beams 

    상세보기

28. Lim TY, Paramasivam P, Mansur MA, Lee SL, Tensile behaviour of steel fibre reinforced cement composites. In: Proceedings, 3rd RILEM international symposium on developments in fibre reinforced cement and concrete, University of Sheffield; 1986, p. 7-16. 

29. ACI Struct J Hsu 82 3 290 1985 Softening of concrete in torsional members-theory and tests 

30. J Adv Concr Technol Ju 11 9 215 2013 10.3151/jact.11.215 Fixed-angle smeared-truss approach with direct tension force transfer model for torsional behavior of steel fiber-reinforced concrete members 

    상세보기

31. Struct Eng Mech Karayannis 9 4 323 2000 10.12989/sem.2000.9.4.323 Nonlinear analysis and tests of steel-fiber concrete beams in torsion 

    상세보기

32. ACI committee 318, Building code requirements for reinforced concrete and commentary (ACI 318-11), American Concrete Institute, Detroit; 2011, 503p. 

33. Standards council of Canada, “Design of concrete structure for buildings (CAN3-A23.3-04)”, Canadian Standards Association, Mississanga, Canada; 2004, 240p. 

34. Standards association of New Zealand, “Concrete structures NZS 3101-Part 1: Design”; 1995, 256p. 

35. Comite Euro-International du Beton, CEB-FIP MODEL CODE 2010, Thomas Telford, London; 2010. 

36. Comete European de Normalisation (CEN), Eurocode 2: design of concrete structures. Part 1-general rules and rules for buildings, prEN 1992-1; 2004, 225p. 

37. Cem Concr Compos Chalioris 31 5 331 2009 10.1016/j.cemconcomp.2009.02.007 Effectiveness of the use of steel fibres on the torsional behavior of flanged concrete beams 

    상세보기

38. Compos Part B: Eng Ju 45 1 215 2013 10.1016/j.compositesb.2012.09.021 Torsional behavior model of steel fiber-reinforced concrete members modifying fixed-angle softened-truss model 

    상세보기

39. Z Ver Dtsch Ing Bredt 40 28 785 1896 Kritische Bemerkungen zur Drehungselastizitat 

40. ACI Struct J Pang 93 2 197 1996 Fixed-angle softened-truss model for reinforced concrete 

    상세보기

41. ACI Struct J Hsu 94 5 483 1997 Nonlinear analysis of membrane elements by fixed-angle softened-truss model 

    상세보기

42. Proc ICE - Struct Build Lee 159 6 349 2006 10.1680/stbu.2006.159.6.349 New algorithm for fixed-angle softened-truss model 

    상세보기

43. ACI Struct J Choi 104 1 12 2007 Shear strength of steel fiber-reinforced concrete beams without web reinforcement 

    상세보기

44. Cem Concr Compos Nataraja 21 5 383 1999 10.1016/S0958-9465(99)00021-9 Stress-strain curves for steel-fiber reinforced concrete under compression 

    상세보기

45. Susetyo J, “Fibre reinforcement for shrinkage crack control in prestressed, precast segmental bridges” [PhD dissertation]. Graduate Department of Civil Engineering, University of Toronto; 2009, 307p. 

46. ACI Struct J Susetyo 108 4 488 2011 Effectiveness of steel fiber as minimum shear reinforcement 

    상세보기

47. ACI J Proc Vecchio 83 2 219 1986 The modified compression field theory for reinforced concrete elements subjected to shear 

48. Finite Elem Anal Des Lee 50 266 2012 10.1016/j.finel.2011.10.004 Nonlinear finite element analysis of steel fiber reinforced concrete members using direct tension force transfer model 

    상세보기

49. Compos Part B: Eng Kim 43 5 2324 2012 10.1016/j.compositesb.2011.11.064 Shear behavior model for steel fiber-reinforced concrete members without transverse reinforcements 

    상세보기

50. Mag Concr Res Hwang 65 5 283 2013 10.1680/macr.12.00009 Evaluation of shear performance of steel fiber-reinforced concrete beams using a modified smeared-truss model 

    상세보기

51. Mater Spec Pub Const Model Compos Mater Hwang 6 10 4847 2013 Shear behavior models of steel fiber-reinforced concrete beams modifying softened truss model approaches 

52. Comput Concr Lee 13 1 49 2014 10.12989/cac.2014.13.1.049 Application of direct tension force transfer model with modified fixed-angle softened-truss model to finite element analysis of steel fiber-reinforced concrete members subjected to shear 

    상세보기

53. Dupont D, Vandewalle L. “Calculation of crack widths with the s-e method”, Test and design methods for steel fibre reinforced concrete: background and experiences. In: Proceedings of the RILEM TC162-TDF workshop, RILEM Technical Committee 162-TDF, Bochum, Germany; 2003, p. 119-144. 

54. ACI Struct J Rahal 92 3 334 1995 Effect of thickness of concrete cover on shear-torsion interaction-an experimental investigation 

    상세보기

55. ACI Struct J Koutchoukali 98 4 462 2001 Torsion of high-strength reinforced concrete beams and minimum reinforcement requirement 

    상세보기