Post-Fire Assessment and Retrofitting of Concrete Buildings: Case Study

Augusto Gil; Venkatesh Kodur; Fernanda Pacheco; Diego Schneider; Roberto Christ; Bernardo Tutikian

doi:10.14359/51734898

Post-Fire Assessment and Retrofitting of Concrete Buildings: Case Study

Augusto Gil
, Venkatesh Kodur
, Fernanda Pacheco
, Diego Schneider
, Roberto Christ
, Bernardo Tutikian

Department of Architectural & Urban Systems Engineering

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Reinforced concrete structures possess good fire-resistance properties and rarely experience failure during a fire incident. However, following a fire incident, proper post-fire assessment and repair of the structure may be needed for rehabilitation of the building. This paper presents the application of the X-ray diffraction technique in the analysis of powder samples extracted from concrete members for the estimation of sectional temperatures reached in a real fire incident. Using these sectional temperatures, a simplified evaluation approach was applied for evaluating the residual capacity of structural members in a fire-damaged building. Results of the analysis showed a reduction of 30% and 27% of beam and column capacity after exposure to a fire incident, respectively. Based on the analysis, recommendations were made for rehabilitating the fire-damaged building to meet current design code specifications.

Original language	English
Pages (from-to)	57-67
Number of pages	11
Journal	ACI Structural Journal
Volume	119
Issue number	5
DOIs	https://doi.org/10.14359/51734898
State	Published - Sep 2022

Bibliographical note

Publisher Copyright:
Copyright © 2022, American Concrete Institute.

Keywords

X-ray diffraction
concrete microstructure
fire damage
post-fire assessment

Access to Document

10.14359/51734898

Cite this

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title = "Post-Fire Assessment and Retrofitting of Concrete Buildings: Case Study",

abstract = "Reinforced concrete structures possess good fire-resistance properties and rarely experience failure during a fire incident. However, following a fire incident, proper post-fire assessment and repair of the structure may be needed for rehabilitation of the building. This paper presents the application of the X-ray diffraction technique in the analysis of powder samples extracted from concrete members for the estimation of sectional temperatures reached in a real fire incident. Using these sectional temperatures, a simplified evaluation approach was applied for evaluating the residual capacity of structural members in a fire-damaged building. Results of the analysis showed a reduction of 30\% and 27\% of beam and column capacity after exposure to a fire incident, respectively. Based on the analysis, recommendations were made for rehabilitating the fire-damaged building to meet current design code specifications.",

keywords = "X-ray diffraction, concrete microstructure, fire damage, post-fire assessment",

author = "Augusto Gil and Venkatesh Kodur and Fernanda Pacheco and Diego Schneider and Roberto Christ and Bernardo Tutikian",

note = "Publisher Copyright: Copyright {\textcopyright} 2022, American Concrete Institute.",

year = "2022",

month = sep,

doi = "10.14359/51734898",

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TY - JOUR

T1 - Post-Fire Assessment and Retrofitting of Concrete Buildings

T2 - Case Study

AU - Gil, Augusto

AU - Kodur, Venkatesh

AU - Pacheco, Fernanda

AU - Schneider, Diego

AU - Christ, Roberto

AU - Tutikian, Bernardo

PY - 2022/9

Y1 - 2022/9

N2 - Reinforced concrete structures possess good fire-resistance properties and rarely experience failure during a fire incident. However, following a fire incident, proper post-fire assessment and repair of the structure may be needed for rehabilitation of the building. This paper presents the application of the X-ray diffraction technique in the analysis of powder samples extracted from concrete members for the estimation of sectional temperatures reached in a real fire incident. Using these sectional temperatures, a simplified evaluation approach was applied for evaluating the residual capacity of structural members in a fire-damaged building. Results of the analysis showed a reduction of 30% and 27% of beam and column capacity after exposure to a fire incident, respectively. Based on the analysis, recommendations were made for rehabilitating the fire-damaged building to meet current design code specifications.

AB - Reinforced concrete structures possess good fire-resistance properties and rarely experience failure during a fire incident. However, following a fire incident, proper post-fire assessment and repair of the structure may be needed for rehabilitation of the building. This paper presents the application of the X-ray diffraction technique in the analysis of powder samples extracted from concrete members for the estimation of sectional temperatures reached in a real fire incident. Using these sectional temperatures, a simplified evaluation approach was applied for evaluating the residual capacity of structural members in a fire-damaged building. Results of the analysis showed a reduction of 30% and 27% of beam and column capacity after exposure to a fire incident, respectively. Based on the analysis, recommendations were made for rehabilitating the fire-damaged building to meet current design code specifications.

KW - X-ray diffraction

KW - concrete microstructure

KW - fire damage

KW - post-fire assessment

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JO - ACI Structural Journal

JF - ACI Structural Journal

IS - 5

ER -

Post-Fire Assessment and Retrofitting of Concrete Buildings: Case Study

Abstract

Bibliographical note

Keywords

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