Mobile QR Code QR CODE

Journal of the Korea Concrete Institute

J Korea Inst. Struct. Maint. Insp.
  • Indexed by
  • Korea Citation Index (KCI)

Journal Search

  1. Home
  2. All Issues
  3. 2020-04 (Vol.24 No.2)
  4. 10.11112/jksmi.2020.24.2.111
XML PDF INFO REF

References

1 
Benard, E. S. (2004), Creep of cracked fibre reinforced shotcrete panels, Shotcrete: More Engineering Developments. Taylor & Francis Group, London, 47-57.Google Search
2 
Mangat, P. S., Motamedi, M. (1986), Compression creep behaviour of steel fibre reinforced cement composites, Mater Struct, 19(113), 361-369.DOI
3 
Chern, J. C., Young, C. H. (1989), Compressive creep and shrinkage of steel fibre reinforced concrete, Int J Cem Lingtweight Concr, 11(4), 205-214.DOI
4 
Arango, S. E. (2012), A test method to characterize flexural creep behaviour of pre-cracked FRC specimens, Experimental mechanics, 52(8), 1067-1078.DOI
5 
Zhao, Guanyu, Di Prisco, Marco, Vandewalle, Lucie (2012), Experimental research on uni-axial tensile creep behaviour of pre-cracked steel fibre reinforced concrete, 8th RILEM international symposium on fibre reinforced concrete: challenges and opportunitiesGoogle Search
6 
Banafemi, Adewumi John, Boshoff, William Peter (2015), Tensile creep of macro-synthetic fibre reinforced concrete (MSFRC) under uni-axial tensile loading, cement and concrete composites, 62-69.DOI
7 
ACI Commitee 318, (2014), Building Code Requirements for Structural Concrete (ACI 318-14) and Commentary, American Concrete InstituteGoogle Search
8 
Jang, Seok Joon, Yun, Hyun Do (2016), Effects of Curing Age and Fiber Volume Fraction on Flexural Behavior of High-Strength Steel Fiber-Reinforced Concrete, Journal of the Korean Society of Hazard Mitigation, 16(4), 15-21.DOI
9 
Jeong, Gwon Young (2018), Effects of Steel Fiber Strength and Aspect Ratio on Mechanical Properties of High-Strength Concrete, Korea Concrete Institute, 30(2), 197-205.Google Search
10 
Shariff, Mohammad Najeeb (2019), Analysis of the ASTM C512 Spring-Loaded CREEP Frame, Journal of Materials in Civil Engineering, 31(10), 04019234DOI
11 
Korea Standards Association, (2010), KS F 2405. Standard Test Method for Compressive Strength of Concrete, Korean Standards Association (in Korean)Google Search
12 
EN-14651, (2005), Test method for metallic fibered concrete- Measuring the flexural tensile strength (limit of proportionality (LOP), residual)Google Search
13 
Garcia-Taengua, E., Arango, S., Mati-Vargas, J. R., Serna, P. (2014), Flexural creep of steel fiber reinforced concrete in the cracked state, Construction and Building Materials, 65, 321-329.DOI
14 
(2013), Fib Model Code for Concrete Structures 2010, Wiley-VCH Verlag GmbH & Co. KGaA, 74-150.Google Search
15 
Llano-Torre, Aitor (1993), Compilation and study of a database of tests and results on flexural creep behavior of fibre reinforced concrete specimens, FIB Symposium Proceedings, Leeds, 2015Google Search
16 
Bishop, A. W. (1993), Mechanical Properties of Concrete, Illinois: Portland Cement Association(CM-92)Google Search
17 
Lim, Dong-Gyun (2019), Effects of Steel Fiber Properties on Compressive and Flexural Toughness of Steel Fiber-Reinforced Concrete, Journal of the Korea institute for structural maintenance and inspection, 23(3), 43-50.DOI
18 
Chae, Young-Suk, Tae, Ghi-Ho (2012), Tension Creep Model of Recycled PET Polymer Concrete with Flexural Loading, Journal of the Korean Society of Safety, 27(5), 117-125.DOI
19 
Moon, Hyung-Jae (2018), Suggestion of the Prediction Model for Material Properties and Creep of 60~80MPa Grade High Strength Concrete, The Korea Institute of Building Construction, 18(6), 517-525.DOI
20 
Koh, K. T., Koh, S. T., Park, J. J., Ryu, G. S. (2004), A Study on the Improvement of Workability of High Strength Steel Fiber Reinforced Cementitious Composites, Journal of The Korea Institute for Structural Maintenance and Inspection, 8(3), 141-148.Google Search