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Journal of the Korea Concrete Institute

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

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  3. 2024-08 (Vol.28 No.4)
  4. 10.11112/jksmi.2024.28.4.37
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References

1 
Ahn, S. H. (2008), Amendment and Complement of General Guidelines for Pre-feasibility Study, Research Report, 5th ed., Korea Development Institute, Korea Ministry of Strategy and Finance (in Korean).URL
2 
Esveld, C. (2001), Modern Railway Track, 2nd ed., MRT- productions, Zaltbommel.URL
3 
Ishida, M. (1990), Relationship between Rail Surface Irregularity and Bending Fatigue of Welded Part in Long Rails, RTRI Report, 4(7) (in Japanese).URL
4 
IITB (1998), Remain: Modular System for Reliability and Maintainability Management in European Rail Transport, Transport Research Fourth Framework Programme, Rail Transport DG VII – 74.URL
5 
Jang, S. Y. (2011), Development of Environment-friendly Track Technology (Precast Concrete Slab Track and Paved Track), Research Report, Korea Railroad Research Institute (in Korean).URL
6 
Jang, S. Y. (2014), Types of cracks and damage of concrete track at early ages in Kyeong-Bu high speed railways and its counter- asures, Magazine of the Korea Concrete Institute, 26(1), 54-58 (in Korean).URL
7 
Jang, S. Y. (2016), Analysis of Life Cycle Costs of Railway Track : A Case Study for Ballasted and Concrete Track for High-Speed Railway, Journal of The Korea Institute for Structural Maintenance and Inspection, 20(2), 110-121 (in Korean).DOI
8 
Kim, M. C. (2017), Condition Evaluation of Gyeongbu High- Speed Railway Track and Development of Renovation Strategy, Research Report, Korea Railroad Research Institute, Korea Rail Network Authority (in Korean).URL
9 
Yang, S. C. (2001), A Study on Track Life Cycle Cost Evaluation and Design Technology, Basic Technology Research for Railroad Systems, Research Report, Korea Railroad Research Institute (in Korean).URL
10 
KR C-14030 (2021), Ballasted Track Structure, Korea National Railway (in Korean).URL
11 
KRNA (Korea Rail Network Authority) (2012), Guidelines for Track Maintenance (in Korean).URL
12 
Nissen, A. (2009), Development of Life Cycle Cost Model and Analyses for Railway Switches and Crossings, Doctoral dissertation, Division of Operation and Maintenance Engineering, Department of Civil, Mining and Environmental Engineering, Luleå University of Technoloy.URL
13 
ORE (1988), Question D161, Dynamic vehicle/track phenomena, from the point of view of track maintenance, Report No.3, Final report, Office for Research and Experiments (ORE) of the International Union of Railways (UIC).URL
14 
Putallaz, Y., and Rivier, R. (2003), Modelling long term infrastructure capacity evolution and policy assessment regarding infrastructure maintenance and renewal, IMPROVERAIL - Infrastructure Capacity and Resources Management, 3rd Swiss Transport Research Conference, Monte Verità / Ascona, March 19-21, 2003.URL
15 
Statistics Korea (2023), Korean Statistical Information Service (KOSIS), https://kosis.kr.URL
16 
Sung, D. R. (2010), A Study on the Prediction of Rail Fatigue Life through Vehicle/Track Interaction Analysis, Ph.D. Dissertation, Graduate School of Railway, Seoul National University of Science and Technology, Seoul (in Korean).URL
17 
UIC (2003), UIC Study Targets Infrastructure Costs, Railway Gazette International, 159(3), 130-132.URL
18 
Zoeteman, A. (2004), Railway Design and Maintenance from a Life-Cycle Cost Perspective: A Decision-Support Approach, TRAIL Thesis Series No. T2004/7, The Netherland TRAIL Research School, Delft, The Netherlands.URL