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
2018-12
(Vol. 30 No.6)
10.4334/JKCI.2018.30.6.617
Journal XML
Export citation
EndNote
XML
PDF
INFO
REF
1
Anderberg, Y. (1997) Spalling phenomena of HPC and OC. Proceedings of the International Workshop of Fire Performance of High-Strength Concrete. 13-14 February 1997 USA, Gaithersburg MD.: National Institute of Standards and Technology. 69-73.
2
CEB-FIP, C. E. B. F. I. P. (1991) Model code 1990. Comite Euro-International Du Beton, Paris. 87-109.
3
Choe, G. C., Lee, T. G., Nam, J. S., Park, B. G., and Kim, G. Y. (2012) Evaluation of Spalling Property and Water Vapor Pressure of Concrete with Heating Rate. Journal of the Korea Concrete Institute 24(5), 605-612. (In Korean)
4
Connolly, R. J. (1995) The Spalling of Concrete in Fires. Ph.D. Thesis. The University of Aston in Birmingham.
5
Fu, Y. F., Wong, Y. L., Poon, C. S., and Tang, C. A. (2007) Numerical Tests of Thermal Cracking Induced by Temperature Gradient in Cement-based Composites Under Thermal Loads. Cement and Concrete Composites 29(2), 103-116.
6
Harmathy, T. Z. (1964) Effect of moisture on the fire endurance of building elements. In Moisture in materials in relation to fire tests. ASTM. Special Technical Publication No.385, 74-95.
7
Hertz, K. D. (2003) Limits of spalling of fire-exposed concrete. Fire Safety Journal 38(2), 103-116.
8
Ichikawa, Y. and England, G. L. (2004) Prediction of Moisture Migration and Pore Pressure Build-up in Concrete at High Temperatures. Nuclear Engineering and Design 228(1-3), 245-259.
9
International Standards Organisation: ISO 834. Fire resistance test. 1975. Elements of building construction.
10
Kalifa, P., Menneteau, F. D., and Quenard, D. (2000) Spalling and Pore Pressure in HPC at High Temperatures. Cement and Concrete Research 30(12), 1915-1927.
11
Kim, Y. S., Lee, T. G., Nam, J. S., Park, G. Y., and Kim, G. Y. (2011) A Study on the Residual Mechanical Properties of Fiber Reinforced Concrete with High Temperature and Load. Journal of the Korea Concrete Institute 23(3), 321-330. (In Korean)
12
Ozawa, M., Tanibe, T., Kamata, R., Uchida, Y., Rokugo, K., and Parajuli, S. S. (2018) Behavior of Ring-restrained High-performance Concrete Under Extreme Heating and Development of Screening Test. Construction and Building Materials 162, 215-228.
13
Sertmehmetoglu, Y. (1977) On a mechanism of spalling of concrete under fire conditions Ph.D. Thesis. University of London.
14
Timoshenko, S. P. and Woinowsky-Krieger, S. (1959) Theory of plates and shells. 2nd edtion. USA, New York: McGraw-hill.
15
Zhukov, V. V. (1976) Reasons of explosive spalling of concrete by fire. Beton I zhelezobeton (Concrete and Reinforcement Concerete). No.3
