Mobile QR Code QR CODE

Journal of the Korea Concrete Institute

ISO Journal TitleJ Korea Concr Inst.
  • SCOPUS
  • KCI Accredited Journal

Journal Search

  1. Home
  2. All Issues
  3. 2024-12 (Vol.36 No.6)
  4. 10.4334/JKCI.2024.36.6.665
Export citation EndNote
XML PDF INFO REF

References

1 
ASTM D7205/D7205M (2016) Standard Test Method for Tensile Properties of Fiber Reinforced Polymer Matrix Composite Bars. West Conshohocken, PA; ASTM International.URL
2 
CAN/CSA-S806-02 (2009) Design and Construction of Building Components with Fibre-Reinforced Polymers. Canadian Standards Association (CSA).URL
3 
Cheng, L. (2012) Steel-Free Bridge Decks Reinforced with FRP Composites. In: Jain, R., Lee, L. (eds) Fiber Reinforced Polymer (FRP) Composites for Infrastructure Applications. Strategies for Sustainability. Springer, Dordrecht. 143-162.URL
4 
Chinnasamy, M., Ajithkumar, R., Singh, A., Yandzom, D., Parvati, T.S., and Joanna, P.S. (2020) Comparative Study on the Behaviour of Textile Reinforced Concrete Slab with Engineered Cementitious Composite Slab. Materials Today: Proceedings 33(Part 1), 1175-1180.DOI
5 
Giese, A. C. H., Giese, D. N., Dutra, V. F. P., and Silva Filho, L. C. P. D. (2021) Flexural Behavior of Reinforced Concrete Beams Strengthened with Textile Reinforced Mortar. Journal of Building Engineering 33, 101873.DOI
6 
Gries, T., Raina, M., Quadflieg, T., and Stolyarov, O. (2016) Manufacturing of Textiles for Civil Engineering Applications. In Textile Fibre Composites in Civil Engineering. Woodhead Publishing: Sawston, UK, 3-24.DOI
7 
Jaffer, S. J., and Hansson, C. M. (2009) Chloride-induced Corrosion Products of Steel in Cracked-concrete subjected to Different Loading Conditions. Cement and Concrete Research 39(2), 116-125.DOI
8 
KATS (2009) Methods of Testing Cements-Determination of Strength (KS L ISO 679). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)URL
9 
Kim, K. M., and Cheon, J. H. (2022) Flexural Behavior of One-Way Slab Reinforced with Grid-Type Carbon Fiber Reinforced Plastics of Various Geometric and Physical Properties. Applied Sciences 12(23), 12491.DOI
10 
Kim, K. M., and Park, S. W. (2023) Tensile Behavior of Textile Reinforced Concrete Members Reinforced with a Carbon Grid by Different Manufacturing Methods. Journal of the Korea Concrete Institute 35(1), 111-121. (In Korean)DOI
11 
Kim, K. M., Park S. W., Song, B. K., and Yoon, S. H. (2024) Evaluation of the Flexural Behavior of One-way Slabs by the Amount of Carbon Grid Manufactured by Adhesive Bonding. Polymers 16(19), 2690.DOI
12 
Michael, A. P. (2006) Using Carbon Fiber Reinforced Polymer Grids as Confinement Reinforcement for Concrete. Ph.D. Thesis, University of Florida, Gainesville.URL
13 
Min, K. J., Kim, K. M., Song, B. K., and Park, S. W. (2023) FFlexural Behavior of Slabs Reinforced with Grid-Type CFRP Reinforcement Manufactured Using Adhesion. Journal of the Korea Concrete Institute 35(2), 197-206. (In Korean)DOI
14 
ACI 440 Committee (2015) Guide for the Design and Construction of Structural Concrete Reinforced with Fiber- Reinforced Polymer (FRP) Bars (ACI 440.1R-15). Farmington Hills, MI; American Concrete Institute (ACI).URL
15 
Naanam, A. E. (2010) Textile Reinforced Cement Composites: Competitive Status and Research Directions. In Proceedings of the International RILEM Conference on Materials Science (MATSCI) I, Aachen, Germany; 6-10 September 2010, 3-22.URL
16 
Nanni, A., De Luca, A., and Jawaheri Zadeh, H. (2014) Reinforced Concrete with FRP Bars: Mechanics and Design. CRC Press; Boca Raton, FL, USA.URL
17 
Peled, A., Bentur, A., and Mobasher, B. (2017) Textile Reinforced Concrete. CRC Press; Boca Raton, FL, USA.URL
18 
Portal, N. W. (2015) Usability of Textile Reinforced Concrete: Structural Performance, Durability and Sustainability. Ph.D. Thesis, Chalmers University of Technology.URL
19 
Portal, N. W., Flansbjer, M., Zandi, K., Wlasak, L., and Malaga, K. (2017) Bending Behaviour of Novel Textile Reinforced Concrete-Foamed Concrete (TRC-FC) Sandwich Elements. Composite Structures 177, 104-118.DOI
20 
Portal, N. W., Perez, I. F., Thrane, L. N., and Lundgren, K. (2014) Pull-Out of Textile Reinforcement in Concrete. Construction and Building Materials 71, 63-71.DOI
21 
Rampini, M. C., Zani, G., Colombo, M., and Prisco, M. (2019) Mechanical Behaviour of TRC Composites: Experimental and Analytical Approaches. Applied Sciences 9(7):1492.DOI
22 
Saleem, M. U., Qureshi, H. J., Amin, M. N., Khan, K., and Khurshid, H. (2019) Cracking Behavior of RC Beams Strengthened with Different Amounts and Layouts of CFRP. Applied Sciences 9(5), 1017.DOI
23 
Schumann, A., Michler, H., Schladizt, F., and Curbach, M. (2018) Parking Slabs made of Carbon Reinforced Concrete. Structural Concrete 19(3), 647-655.DOI
24 
Tietze, M., Kirmse, S., Kahnt, A., Schladitz, F., and Curbach, M. (2022) The Ecological and Economic Advantages of Carbon Reinforced Concrete-Using the C3 Result House CUBE Especially the BOX Value Chain as an Example. Civil Engineering Design 4(1-3), 79-88.DOI
25 
Wagner, J., and Curbach, M. (2019) Bond Fatigue of TRC with Epoxy Impregnated Carbon Textiles. Applied Sciences 9(10), 1980.DOI
26 
Zdanowica, K., and Marx, S. (2022) Flexural Behaviour of Thin Textile Reinforced Concrete Slabs Enhanced by Chemical Prestressing. Engineering Structures 256, 113946.DOI
27 
Zhang, T., Wang, B., Lu, X., and Guo, J. (2022) Flexural Properties of Textile-Reinforced Concrete with Nonorthogonal Grids. Polymers (Basel). 14(23):5185.DOI