INVESTIGATIONS ON STEEL-TIMBER-CONCRETE COMPOSITE SHALLOW FLOOR BEAMS: COMPARISON BETWEEN STRAIN-BASED DERIVED BENDING RESISTANCES AND RESULTS OF NUMERICAL MODELS (LAC25.C)

AHMAD, Adil; ODENBREIT, Christoph; Demonceau, Jean-François; YANG, Jie

doi:10.52202/080513-0548

Paper published in a book (Scientific congresses, symposiums and conference proceedings)

INVESTIGATIONS ON STEEL-TIMBER-CONCRETE COMPOSITE SHALLOW FLOOR BEAMS: COMPARISON BETWEEN STRAIN-BASED DERIVED BENDING RESISTANCES AND RESULTS OF NUMERICAL MODELS (LAC25.C)

AHMAD, Adil; ODENBREIT, Christoph; Demonceau, Jean-François et al.

2025 • In Rischmiller, Kelly (Ed.) Proceedings from the 14th World Conference on Timber Engineering: Advancing Timber for the Future Built Environment, WCTE 2025

Peer reviewed

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https://hdl.handle.net/10993/67636

DOI
10.52202/080513-0548

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Keywords :

composite; shallow floor beam; steel; strain-controlled; timber; Bending capacity; Bending resistance; Carbon dioxide emissions; European union; Floor beam; Greenhouses gas; Shallow floor beam; Strain based; Strain-controlled; Timber-concrete composites; Building and Construction; Forestry; Plant Science; Civil and Structural Engineering; Architecture

Abstract :

[en] To limit the emission of greenhouse gases, the 'Green Deal' and the Taxonomy Regulation were introduced in the European Union. This inevitably leads to a change in the construction industry, with the aim of reducing carbon dioxide emissions to (net) zero by 2050. The development and use of constructional timber can also be purposeful. For steel construction, this means expanding the composite construction method from steel-concrete to steel-timber and possibly also steel-timber-concrete composites. In this contribution the steel-timber-concrete composite shallow floor beams are investigated, which reduce the floor height and enable either a reduction of the height of the building or in the construction of more floors. Here the steel sheet and most of the concrete of traditional steel-concrete beams are replaced by timber. This change in material results in a different load bearing behaviour and different characteristics which need to be reflected in the overall bending capacity. The paper shows the results on the investigation about steel-timber-concrete composite shallow floor beams using a strain limited approach and compares these to the results of numerical models using the finite element software ABAQUS©. It suggests that the strain-based method can be a viable approach to assess the bending capacity of steel-timber-concrete shallow floor beams.

Disciplines :

Civil engineering

Author, co-author :

AHMAD, Adil ; University of Luxembourg > Faculty of Science, Technology and Medicine (FSTM) > Department of Engineering (DoE)

ODENBREIT, Christoph ; University of Luxembourg > Faculty of Science, Technology and Medicine (FSTM) > Department of Engineering (DoE)

Demonceau, Jean-François; University of Liège, Liège, Belgium

YANG, Jie ; University of Luxembourg > Faculty of Science, Technology and Medicine > Department of Engineering > Team Christoph ODENBREIT ; R&D ArcelorMittal, Esch-sur-Alzette, Luxembourg

External co-authors :

yes

Language :

English

Title :

INVESTIGATIONS ON STEEL-TIMBER-CONCRETE COMPOSITE SHALLOW FLOOR BEAMS: COMPARISON BETWEEN STRAIN-BASED DERIVED BENDING RESISTANCES AND RESULTS OF NUMERICAL MODELS (LAC25.C)

Publication date :

2025

Event name :

World Conference on Timber Engineering 2025

Event place :

Brisbane, Aus

Event date :

22-06-2025 => 26-06-2025

Main work title :

Proceedings from the 14th World Conference on Timber Engineering: Advancing Timber for the Future Built Environment, WCTE 2025

Editor :

Rischmiller, Kelly

Publisher :

World Conference on Timber Engineering (WCTE)

ISBN/EAN :

9798331320898

Peer reviewed :

Peer reviewed

Funders :

et al.
KLH
Multinail
NextTimber
Rothoblaas
Spax

Funding text :

The authors extend their sincere gratitude to ArcelorMittal Luxembourg for their invaluable support in the AM-SeTi research project.

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since 02 February 2026

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