JKCI
Journal of
the Korea Concrete Institute
KCI
Contact
Open Access
Bi-monthly
ISSN : 1229-5515 (Print)
ISSN : 2234-2842 (Online)
http://www.jkci.or.kr/jkci
Mobile QR Code
Journal of the Korea Concrete Institute
ISO Journal Title
J Korea Concr Inst.
SCOPUS
KCI Accredited Journal
Main Menu
Main Menu
저널소개
About Journal
최근호
Current Issue
논문집
All Issues
목적 및 범위
Aims and Scope
편집위원회
Editorial Board
논문투고안내
Instructions to Authors
출판정책
Publishing Policies
연락처
Contact Info
논문투고
Online-Submission
Journal Search
Home
All Issues
2023-08
(Vol.35 No.4)
10.4334/JKCI.2023.35.4.389
Journal XML
Export citation
EndNote
XML
PDF
INFO
REF
References
1
ACI Committee 209 (2008) Guide for Modeling and Calculating Shrinkage and Creep in Hardened Concrete (ACI 209.2R-08). Farmington Hills, MI: American Concrete Institute (ACI).
2
Alberto, C. (1993) Concrete Toughness after 20 Years. Journal of Structural Engineering ASCE 119(5), 1402-1412.
3
Al-Khaiat, H., and Fattuhi, N. (2001) Long-term Strength Development of Concrete in Arid Conditions. Cement and Concrete Composites 23, 363-373.
4
Bilodeau, A., Malhotra, V. M., and Golden, D. M. (1998) Mechanical Properties and Durability of Structural Lightweight Concrete Incorporating High-Volumes of Fly ash. ACI International 178, 447-474.
5
CEB FIB (2010) CEP-FIP Model Code 2010. Lausanne, Switzerland; International Federation for Structural Concrete (fib), Comite Euro-International du Beton (CEB).
6
Irina, S. O., Dubravka, B., and Dunja, M. (2010) Evaluation of Service Life Design Models on Concrete Structures Exposed to Marin Environment. Materials and Structures 43(10), 1397- 1412.
7
JSCE (2010) Standard Specifications for Concrete Structures - 2007 design. Dokyo, Japan: Japan society of Civil Engineers (JSCE).
8
KATS (2017) Standard Test Method for Compressive Strength of Concrete (KS F 2405). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)
9
KCI (2022a) Concrete Standard Specification Durable Side (KDS 14 20 40: 2022). Sejong, Korea: Ministry of Land, Infrastructure and Transport (MOLIT), Korea Concrete Institute (KCI). (In Korean)
10
KCI (2022b) General Standards for Concrete Structure Design (Strength Design Method) (KDS 14 20 01). Sejong, Korea: Ministry of Land, Infrastructure and Transport (MOLIT). (In Korean)
11
KICT (2003) Long Term Measurement of Airborne Chlorides and Durabiltiy of Concrete Mixed with Sea Sand. Goyang, Korea: Korea Institute of Civil Engineering and Building Technology (KICT). (In Korean)
12
KICT (2006) Long Term Measurement of Airborne Chlorides and Durabiltiy of Concrete Mixed with Sea Sand. Goyang, Korea: Korea Institute of Civil Engineering and Building Technology (KICT). (In Korean)
13
KMA (2022) www.kma.go.kr. Accessed 30 November 2022. Korea Meteorological Administration (KMA). (In Korean)
14
Kouloumbi, N., Batis, G., and Malalmi, C. (1994) The Anticorrosive Effect of Fly Ash, Slag and a Greek Pozzolan in Reinforced Concrete. Cement and Concrete Composites 16(4), 253-260.
15
Kwon, S. H., and Kwon, S. J. (2019) Carbonation Assessment for Superstructure of Bridge Used in Urban Area for 46-Years by Core Specimens Extracted from the Structure. Journal of the Korean Recycled Construction Resources Institute 7(2), 151-157. (In Korean)
16
Lee, J. S., and An, G. H. (2012) Penetration Properties of Airborne Chlorides on Concrete Exposed in Marine Environment. Journal of the Korea Concrete Institute 24(5), 553-558. (In Korean)
17
Mohammed, T. U., Hamada, H., and Yamaji, T. (2003) Marine Durability of 30-Year Old Concrete Made with Different Cements. Journal of Advanced Concrete Technology 1(1), 63-75.
18
MOLIT (2021) Detailed Guidelines for Safety and Maintenance of Facilities. Sejong, Korea: Ministry of Land, Infrastructure and Transport (MOLIT). (In Korean)
19
Moon, J. H. (2010) Evaluation of Creep Models with the Consideration of Concrete’s Strength Level. Journal of the Korea Institute for Structural Maintenance and Inspection 14(4), 154-159. (In Korean)
20
Mun, J. S., Yang, K. H., and Jeon, Y. S. (2014) Maturity-Based Model for Concrete Compressive Strength with Different Supplementary Cementitious Materials. Journal of the Korea Institute for Structural Maintenance and Inspection 18(6), 82-89. (In Korean)
21
Mustafa, M. A., and Yusof, K. M. (1994) Atmospheric Chloride Penetration into Concrete in Semitropical Marine Environment. Cement and Concrete Research 24(4), 661-670.
22
Nath, P., and Sarker, P. (2011) Effect of Fly Ash on the Durability Properties of High Strength Concrete. Procedia Engineering 14, 1149-1156.
23
Thomas, M. D. A., and Matthewsb, J. D. (2004) Performance of pfa Concrete in a Marine Environment-10-Year Results. Cement and Concrete Composites 26(1), 5-20.
24
Washa, G. W., and Wendt, K. F. (1975) Fifty Year Properties of Concrete. Journal of the American Concrete Institute 72(1), 20-28.
