Application of Post-Tensioning in Building Construction Comparative Study of Material Use in Post-Tensioned and Conventionally Reinforced Concrete Slabs
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Publicerad
Författare
Typ
Examensarbete för masterexamen
Master's Thesis
Master's Thesis
Modellbyggare
Tidskriftstitel
ISSN
Volymtitel
Utgivare
Sammanfattning
The construction industry is a major contributor to global environmental impact, and
material-efficient structural systems are therefore important for reducing embodied car
bon in buildings. This thesis investigates post-tensioned concrete flat slabs in com
parison with conventionally reinforced concrete flat slabs, with focus on material use
and CO2 equivalents. A case study was carried out for span lengths of 6 m, 9 m and
12 m, where the two systems were analysed under comparable geometric and loading
conditions. The structural design was performed with numerical FEM model and the
resulting quantities of concrete, ordinary reinforcement and prestressing steel were used
to calculate CO2 equivalents for the product stage A1–A3 of the life cycle analysis. In
addition, a parametric study was performed to evaluate how slab thickness and concrete
strength class influence the total environmental impact. The results show that the ben
efit of post-tensioning becomes more pronounced for longer spans where reductions in
both concrete and reinforcement can be achieved. The study also shows that the most
favourable concrete strength class depends on the span length and the required slab
thickness, meaning that the lowest concrete class possible does not necessarily result in
the lowest total CO2 equivalents.
Beskrivning
Ämne/nyckelord
Post-tensioning, reinforced concrete, flat slabs, material efficiency, CO2 equivalents, embodied carbon, slab thickness, concrete strength class, span length, para metric study
