2022
DOI: 10.1002/cepa.1826
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Parametric Finite Element Analyses of Lightweight Cold‐formed Steel‐concrete Composite Floor Beams

Abstract: Composite structural systems have many benefits, such as a high degree of prefabrication, reusability and long span capability. The main advantage of such systems is manifested through the optimal utilisation of structural steel and concrete. Additionally, allowing for demountability and reusability, the system can also result in a much smaller carbon footprint at the end of life. These advantages are particularly emphasised with the implementation of cold‐formed steel sections. This paper presents an innovati… Show more

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Cited by 3 publications
(3 citation statements)
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“…Studies have focused on investigating the flexural performance of composite columns with different cross-sectional configurations, such as C-sections filled with concrete material containing varied lightweight recycled aggregates [60]. Furthermore, the influence of corrugated web thickness, connection types, shear connection degree, and steel beam height on the overall behaviour of composite floor structures has been examined, highlighting the significant impact of connection types and shear connection degree on system behaviour [61]. Meza et al [62] described a comprehensive experimental program in which built-up CFS stub columns with four different cross-sectional geometries were investigated, and the experiments revealed a significant amount of restraint within the buckling due to the cross-sectional stiffeners and connector spacing having a pronounced effect on the observed buckling mode.…”
Section: Profile Of Built-up Sectionsmentioning
confidence: 99%
“…Studies have focused on investigating the flexural performance of composite columns with different cross-sectional configurations, such as C-sections filled with concrete material containing varied lightweight recycled aggregates [60]. Furthermore, the influence of corrugated web thickness, connection types, shear connection degree, and steel beam height on the overall behaviour of composite floor structures has been examined, highlighting the significant impact of connection types and shear connection degree on system behaviour [61]. Meza et al [62] described a comprehensive experimental program in which built-up CFS stub columns with four different cross-sectional geometries were investigated, and the experiments revealed a significant amount of restraint within the buckling due to the cross-sectional stiffeners and connector spacing having a pronounced effect on the observed buckling mode.…”
Section: Profile Of Built-up Sectionsmentioning
confidence: 99%
“…In cases where a tie connection is used, the touching surfaces are connected using a tie constraint. When spot welds are used for connecting C-sections, two and three spot welds are used, in accordance with [43]. The spot welds are secured with attachment points using Point-Based Fasteners with assigned properties investigated in [44,45].…”
Section: Parametric Numerical Analysesmentioning
confidence: 99%
“…By using backto-back systems, a relatively small distance between two shear connectors is obtained compared to built-up systems, which is used to analyse the influence of the shear connector distance on the behaviour of the shear connection. The proposed innovative system was investigated as part of the scientific project LWT-FLOOR [12][13][14][15], which is being carried out at the University of Zagreb at the Faculty of Civil Engineering, Croatia. The project aims to investigate the behaviour of the proposed system as well as the behaviour of the individual components using experimental, numerical and probabilistic methods and, based on this, to enable the development of an analytical procedures for design of proposed system.…”
Section: Introductionmentioning
confidence: 99%