Fire Science and Engineering

Search: Fire Sci. Eng. Search

CLOSE

Search

Page Path

HOME
Search

Fire Resistance Behaviour of High Strength Concrete Members with Vapor Pressure and Creep Models: Lee Tae-Gyu; J. Kor. Inst. Fire Sci. Eng.. 2010;24(4):33-40. Published online August 31, 2010; PDF

An Experimental Study on the Thermal Property of Concrete under the Load Ratio Condition in Fire: Kim Hyung-Jun, Kim Heung-Youl, Park Kyung-Hun, Ahn Chan-Sol, Kwon Ki-Hyuk; J. Kor. Inst. Fire Sci. Eng.. 2010;24(3):145-151. Published online June 30, 2010; PDF

The Study on the Fire Resistance Performance of the CFT (Concrete filled Tube) Column According to the Concrete Compressive Strength and Load Ratio: Cho Kyung-Suk, Kim Heung-Youl, Kim Hyung-Jun, Kwon In-Kyu; J. Kor. Inst. Fire Sci. Eng.. 2010;24(2):44-51. Published online April 30, 2010; PDF

An Experimental Study on the Thermal Property of Concrete under the Load Ratio Condition in Fire: Kim Hyung-Jun, Kim Heung-Youl, Park Kyung-Hun, Jung Jae-Young, Kwan Ki-Hyuk; J. Kor. Inst. Fire Sci. Eng.. 2009;23(6):66-74. Published online December 31, 2009; PDF

Prediction of Moisture Migration of Concrete Including Internal Vaporization in Fire: Lee Tae-Gyu; J. Kor. Inst. Fire Sci. Eng.. 2009;23(5):17-23. Published online October 31, 2009; PDF

Spalling Reduction Method of High Strength Reinforced Concrete Columns Using Fibers: Yoo Suk-Hyeong; J. Kor. Inst. Fire Sci. Eng.. 2009;23(4):7-12. Published online August 31, 2009; PDF

Spalling Reduction Effect of PP Fibers and Silica Fume on High Strength Reinforced Concrete Columns: Yoo Suk-Hyeong; J. Kor. Inst. Fire Sci. Eng.. 2009;23(4):1-6. Published online August 31, 2009; PDF

A Study on the Prediction of Residual Strength of Concrete Filled Steel Tube Column without Fire Protective Coating by Unstressed Heating: Kim Gyu-Yong, Lee Hyoung-Jun, Lee Tae-Gyu, Kim Young-Sun, Kang Sun-Jong; J. Kor. Inst. Fire Sci. Eng.. 2009;23(3):31-39. Published online June 30, 2009; PDF

A Study on the Anti-Spalling Performance of High-Strength Concrete Members by covered Engineered Cementitious Composite: Lee Jae-Young, Kim Jae-Hwan, Han Byung-Chan, Park Sun-Gyu, Kwon Young-Jin; J. Kor. Inst. Fire Sci. Eng.. 2008;22(4):85-94. Published online November 30, 2008; PDF

A Review on Spalling Phenomenon of High Strength Concrete during a Fire Accident: Kim Hyung-Doo; J. Kor. Inst. Fire Sci. Eng.. 2006;20(2):80-86. Published online June 30, 2006; PDF

An Experimental Study for Supposed Heating Temperature of Deteriorated Concrete Structure by fire Accident: J. Kor. Inst. Fire Sci. Eng.. 2004;18(3):51-56. Published online September 30, 2004; PDF

The Engineering Properties of Concrete Exposed at High Temperature: J. Kor. Inst. Fire Sci. Eng.. 2004;18(1):31-36. Published online March 31, 2004; PDF

A Study on the Characteristics of Heat Release for Pascon and Concrete Trough: J. Kor. Inst. Fire Sci. Eng.. 2003;17(2):17-24. Published online June 30, 2003; PDF

Estimation of fire Experiment Prediction by Utility Tunnels Fire Experiment and Simulation: J. Kor. Inst. Fire Sci. Eng.. 2001;15(1):23-33. Published online March 31, 2001; PDF

Editorial Office: Room 906, The Korea Science Technology Center The first building, 22, Teheran-ro 7 Gil, Gangnam-gu, Seoul, Republic of Korea
Tel: +82-2-555-2450/+82-2-555-2452 Fax: +82-2-3453-5855 E-mail: kifse@hanmail.net

Copyright © 2024 by Korean Institute of Fire Science and Engineering.

prev

next