Optimal applications of high-strength concrete in structural walls of tall buildings
Bong, Budi Galianto (1998) Optimal applications of high-strength concrete in structural walls of tall buildings. Research Master thesis, Victoria University of Technology.
Abstract
This study examines the application of high-strength concrete (HSC) in structural walls of tall buildings. Emphasis is put on the cost-benefits corresponding to the use of higher concrete strengths. The parameters included in the cost analysis are: the material cost of concrete and reinforcing steel; the construction costs including the placement costs of the steel reinforcement and wet concrete, and the formwork cost; and the cost-benefit additional floor area gains, corresponding to thinner walls resulted from applications. In lateral load resisting buildings, HSC are more likely to be used in the structural columns and walls. It is shown in the review of literature (Chapter 2) that the utilisations of HSC in building applications are economical. The work done so far was mostly involving the use of HSC columns in the medium-rise buildings. The cost analyses carried out in this thesis reveals that significant cost-benefits can also be achieved in the HSC walls. Comparing to the 40 MPa concrete, a 120 MPa concrete wall building capitalising at $8,000 per square meter results in a cost-benefit more than 2.5 times the construction costs of the 40 MPa wall, a significant amount. The structural walls investigated are two-dimensional cantilever and coupled walls, and a threerdimensional core wall comprising two 'C' shape walls and header beams coupling the two walls. The results of the investigations are presented in Chapters 6 and 7. A case study of a model 30-storey building is also given in Chapter 8. This study concluded that the use of HSC in structural wall buildings is recommended.
Additional Information | Master of Engineering |
Item type | Thesis (Research Master thesis) |
URI | https://vuir.vu.edu.au/id/eprint/18144 |
Subjects | Historical > FOR Classification > 0912 Materials Engineering Historical > FOR Classification > 1202 Building Historical > FOR Classification > 1204 Engineering Design Historical > Faculty/School/Research Centre/Department > School of Engineering and Science |
Keywords | Buildings, Reinforced concrete, Design, Construction, High strength concrete, Cost effectiveness, Concrete walls, Tall buildings |
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