한국건축시공학회지 (Journal of the Korea Institute of Building Construction)

  • 제24권3호
  • /
  • Pages.297-308
  • /
  • 2024
  • /
  • 1598-2033(pISSN)
  • /
  • 2233-5706(eISSN)
한국건축시공학회 (The Korean Institute of Building Construction)
권호 표지
DOI QR코드

DOI QR Code

화재로 손상된 고강도 콘크리트의 손상 깊이 측정을 위한 수중침지 건조방법의 활용

Utilization of Immersion-Drying Method for Measuring Damage Depth of Fire-Damaged High-Strength Concrete

  • 김종 ;
  • 임군수 ;
  • 백승복 ;
  • 한민철
  • Kim, Jong (Dept. of Architectural Engineering, Cheong ju University) ;
  • Lim Gun-Su (Dept. of Architectural Engineering, Cheong ju University) ;
  • Beak, Seung-Bok (Dept. of Architectural Engineering, Cheong ju University) ;
  • Han, Min-Cheol (Department of Architectural Engineering, Cheong ju University)
  • 투고 : 2024.03.29
  • 심사 : 2024.05.12
  • 발행 : 2024.06.20
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

본 연구에서는 화재로 손상된 콘크리트의 손상 깊이 판정방법을 제안하고자 하였다. 고온에 노출된 콘크리트의 경우 내부 조직이 팽창하여 건전한 부위보다 손상부위의 공극이 다량 발생하고 미세균열이 발생됨에 따라 흡수율이 더 높아져 수중 침치후 건조를 하는과정에서 건전부위보다 손상부위의 늦은 건조속도와 이에 따른 명도차이에 의한 색상차이를 이용하여 손상 깊이를 측정하는 것이다. 수중 침지방법의 경우 배합별로 각각 38.7 및 37.5mm로 나타났는데, 기존 페놀프탈레인에 의한 중성화 측정 방법보다 손상깊이를 깊게 추정하는 것을 알 수 있었다. 이는 Portlandite(Ca(OH)2)의 존재여부에 따라 발색이 되는 페놀프탈레인법에 비해 조직이완에 따른 흡수율 원리를 이용한 손상 깊이를 측정하는 방법이 더 민감도가 높아 얻어진 결과로 사료된다.

This study presents a novel approach for evaluating fire-induced damage depth in concrete. The methodology leverages the principle that exposure to high temperatures causes internal expansion within concrete, leading to increased voids and microcracks in the damaged zones. This heightened porosity results in greater absorption rates compared to undamaged areas. By immersing fire-damaged concrete samples in water and subsequently monitoring the drying process, the depth of damage can be assessed. Differences in drying rates and color variations between damaged and undamaged areas serve as visual indicators for determining the extent of the damage. Experimental results from this water immersion method revealed damage depths of 38.7mm and 37.5mm for two different concrete mixtures. These measurements notably surpass the damage depths estimated using traditional phenolphthalein-based methods. This discrepancy suggests that utilizing the absorption rate principle, which is directly linked to the physical changes caused by thermal expansion, offers a more accurate and sensitive assessment of fire damage depth compared to methods relying solely on the presence of Portlandite for colorimetric indication.

키워드

과제정보

This study is a revision and supplementation of the content of the 2022 degree.

참고문헌

  1. National fire agency statistical year book [Internet]. Sejong (Korea): National fire agency. 2020 Jul 9. Available from: https://www.nfds.go.kr/stat/general.do
  2. Sim SR, Ryu DW. The effect of surface treatment materials on the carbonation resistance of fiber-mixed high strength concrete in fire damage. Journal of the Architectural Institute of Korea. 2021 Sep;37(9):199-207. https://doi.org/10.5659/JAIK.2021.37.9.199
  3. Architectural institute of Japan. Diagnosis and repair mothods of file-damager buildings. Tokyo (Japan): Architectural institute of Japan; 2009. 207 p.
  4. Kang H, Kweon OS. Analysis of problems in the heating temperature estimation method by discoloration of fire-damaged concrete. Journal of the Korean Society of Hazard Mitigation; 2020 Dec;20(6):127-33. https://doi.org/10.9798/KOSHAM.2020.20.6.127
  5. Kim JH. Recovery of the performance of the high strength concrete subjected to high temperature depending on repair materials [master thesis]. Cheongju (Korea): Cheongju university; 2014. 151 p.
  6. Byun YH, Ryu DW. An experimental study on the diagnosis and evaluation of damage characteristics of fire damaged concrete by strength level: In relation to carbonation depth. Journal of the Korean Society Of Hazard Mitigation. 2017 Dec;17(6):19-27.
  7. Lee JW, Choi GH, Hong KP. A study on the thermal properties and the heat transfer in concrete exposed to high temperature. Journal of the Architectural Institute of Korea Structure & Construction. 2007 Dec;23(12):51-8.
  8. Lim GS, Han JH, Hyun SY, Kim j, Han MC, Han CG. Assesment of impaired depth due to fire of mock-up concrete with 21mpa using drying method after water immersion. Proceedings of the Korean Institute of Building Construction Conference. 2021 May 20-21; Jeju, Korea. Seoul (Korea): the Korea Institute of Building Construction; 2021. p. 241-2.
  9. Lee SH, Kim DH, Choi DH. An explanation of fire resistance performance management standard for high strength concrete. Magazine of the Korea Concrete Institute. 2008 Sep;20(5):22-5. https://doi.org/10.22636/MKCI.2008.20.5.22
  10. Tae SH, Lee BK. Microstructure characteristics of concrete exposed to high temperatute. Journal of the Fire Science and Engineering. 1998 Dec;12(4):31-40.
  11. Lim GS, Han SH, Hyun SY, Kim j, Han MC, Han CG. Analysis of fire damaged concrete Ca(OH)2 by heating temperature using scanning electron microscope and x-ray diffraction. Proceedings of the Korean Institute of Building Construction Conference; 2022 Nov 10-11; Busan, Korea. Seoul (Korea): the Korea Institute of Building Construction; 2022. p. 149-50.