Impact resistance and damage assessment of steel beams with different web openings

Impact resistance and damage assessment of steel beams with different web openings

To investigate the impact resistance of steel beams with different web openings, falling-hammer impact trials and numerical models analyses were performed, focusing on the impact energy, inter-opening space, and opening diameter. The impact resistance of steel beams with different web openings was a...

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Bibliographic Details
Published in:International journal of steel structures Vol. 24; no. 2; pp. 405 - 416
Main Authors: Chen, Huayan, Huang, Jianzhong, Fu, Chaojiang, Wang, Sixiang, Wang, Fengxuan, Luo, Caisong, Wang, Bizhen
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-04-2024
Springer Nature B.V
한국강구조학회
Subjects:
Civil Engineering
Damage assessment
Energy absorption
Engineering
Hammers
Impact damage
Impact loads
Impact resistance
Impact velocity
Materials Science
Numerical models
Solid Mechanics
Steel beams
Web openings
토목공학
Web-opening steel beam
Numerical simulation
Impact performance
Damage analysis
Velocity–mass curves
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Summary:To investigate the impact resistance of steel beams with different web openings, falling-hammer impact trials and numerical models analyses were performed, focusing on the impact energy, inter-opening space, and opening diameter. The impact resistance of steel beams with different web openings was analyzed, and damage-assessment curves for web-opening steel beams (WOSBs) under impact loads were established. The results showed that web-hexagonal-opening steel beams (WHOSBs) yielded greater damage-related deformation than web-circular-opening steel beams (WCOSBs) for the same impact energy. The average maximum mid-span displacement of the WCOSBs under the falling-hammer was 86.49% that of the WHOSBs, whereas the average energy absorption rate was 6.07% higher. The WCOSBs were more resistant to impacts than the WHOSBs. The impact velocity and mass were the key damage-assessment parameters, and velocity–mass damage-assessment curves and determination equations were established according to on the WOSBs’ maximum mid-span displacement under hinge-supported restraints at both ends. Thus, this study will serve as a reference for assessing the damages of WOSBs subjected to impacts.
ISSN:1598-2351
2093-6311
DOI:10.1007/s13296-024-00824-9