Progressive collapse resistance of post-fire cellular beam-column substructures with various web-opening shapes
Alshaikh, Ibrahim M.H., Abadel, Aref A., Tuladhar, Rabin, Hasan Alwathaf, Ahmed, and Nehdi, Moncef L. (2023) Progressive collapse resistance of post-fire cellular beam-column substructures with various web-opening shapes. Structures, 55. pp. 1874-1893.
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Abstract
The sudden column loss, which is caused by fire, is a unique illustration of a localized failure that can eventually lead to the progressive collapse of the entire steel-framed structures. To avoid high costs, as well as risks of testing progressive collapse under fire conditions, numerical simulation, which utilizes the finite element (FE) software, is essential to investigate the fire exposure influence on steel-framed structures. In this study, FE simulations using ABAQUS-Explicit are used to examine the resistance of the progressive collapse of beam-column substructures with a cellular opening in the web under fire or post-fire conditions. The FE models' accuracy and reliability are accordingly enhanced and validated by comparing the results with previous experimental test results. Twenty different types of cellular beams with differently sized (i.e., D = 75, 90, and 105 mm) and shaped web openings (i.e., circular, square, and hexagon holes) are numerically investigated. The failure mechanism, load–displacement behavior, and collapse mechanisms are assessed as well. The results showed that the load-carrying capacity and associated displacement are significantly reduced for fire-exposed specimens. The flexural action and catenary action mechanism resistances of the fire-exposed specimens are all lower than those of the non-fire-exposed specimens, which established that the fire exposure condition might have worsened the initial stiffness and ultimate capacity of the specimens.
Item ID: | 79469 |
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Item Type: | Article (Research - C1) |
ISSN: | 2352-0124 |
Keywords: | Catenary action, Cellular beams, Fire conditions, Numerical simulation, Opening shape, Progressive collapse, Steel-framed structure |
Copyright Information: | © 2023 Institution of Structural Engineers. Published by Elsevier Ltd. All rights reserved. |
Date Deposited: | 02 Aug 2023 03:14 |
FoR Codes: | 40 ENGINEERING > 4005 Civil engineering > 400505 Construction materials @ 20% 40 ENGINEERING > 4005 Civil engineering > 400507 Fire safety engineering @ 40% 40 ENGINEERING > 4005 Civil engineering > 400510 Structural engineering @ 40% |
SEO Codes: | 12 CONSTRUCTION > 1202 Construction design > 120201 Civil construction design @ 60% 12 CONSTRUCTION > 1203 Construction materials performance and processes > 120303 Metals @ 20% 12 CONSTRUCTION > 1203 Construction materials performance and processes > 120301 Cement and concrete materials @ 20% |
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