2019
DOI: 10.1002/cepa.1102
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Proof of concept of a demountable steel‐concrete composite flooring system

Abstract: Environmental concerns steer the construction industry towards more sustainable developments such as demountable and reusable structures. Composite structures are a frequent solution for multi-story buildings and bridges, however the use of welded shear connectors requires labour and energy intensive disassembly. Two bays of a demountable flooring system for a multi-storey car park building were erected in the laboratory. The flooring system consists of large prefabricated concrete decks connected to tapered s… Show more

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Cited by 4 publications
(6 citation statements)
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“…However, to successfully re-use the composite slab in combination with an arbitrary steel beam, the hole clearance has to be increased in the second life cycle. Similar finding was confirmed in a feasibility study by (11) on a demountable composite flooring system with large prefabricated decks.…”
Section: Discussionsupporting
confidence: 82%
“…However, to successfully re-use the composite slab in combination with an arbitrary steel beam, the hole clearance has to be increased in the second life cycle. Similar finding was confirmed in a feasibility study by (11) on a demountable composite flooring system with large prefabricated decks.…”
Section: Discussionsupporting
confidence: 82%
“…The results of the Monte Carlo analysis are based on the assumption that the floor elements do not exhibit geometrical and dimensional deviations. Gîrbacea [8] has identified the deviations in terms of longitudinal and transversal spacing of the embedded demountable shear connectors for the composite floor system executed by Nijgh et al [4]. The maximum transversal deviations of the spacing of the demountable shear connectors were +2.6 and −2.8 mm.…”
Section: A Case-study Buildingmentioning
confidence: 99%
“…A tight control over the dimensional and geometrical deviations of the prefabricated concrete floor elements would have mitigated the experimentally required nominal hole clearances. In addition, the floor elements could be designed slightly narrower than the nominal centre-to-centre distance of the steel beams to allow for minor deviations in floor element width [8]. This strategy cannot be used longitudinally, because direct contact of the floor elements is necessary to generate composite interaction during the functional lifetime.…”
Section: A Case-study Buildingmentioning
confidence: 99%
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“…commonly used floor structure in steel structure engineering, and it is widely used in large-span floor structures [32][33][34]. With the continuous improvement of the industrialization of buildings, the prefabricated steel-concrete composite floor system has gradually attracted the attention of the engineering community, especially the application of steel-concrete composite steel beams with precast concrete hollow-core slabs [35][36][37] and the application of the slim-floor system [38][39][40][41].Both are beneficial to promote the development of prefabrication of steel-concrete floor systems [42,43].However,the current research on prefabricated assembled steel-concrete composite floors has basically focused on the vertical mechanical behavior, and less attention has been paid to the in-plane mechanical behavior of this type of floor.…”
Section: Introductionmentioning
confidence: 99%