Abstract
Assessment of the load carrying capacity of existing bridges has become a frequent task for structural engineers. Here, the shear capacity is often one of the main concerns since the amount of shear reinforcement often does not comply with the amount that is required according to design codes nowadays, e.g. for post-tensioned concrete slab bridges, the amount of shear reinforcement is often very low or non-existing.
Since the shear capacity of beams has been found to be proportional to the width, the shear capacity of one-way spanning slabs can be simulated by rectangular beams. However, in the literature, the majority of the available experimental campaigns on the shear capacity of post-tensioned concrete beams is performed on beams with I- or T-sections. The shear-failure mechanism is, however, not the same for rectangular beams as for beams with I- or T-sections.
This paper studies the shear capacity and the shear failure mechanism of post-tensioned concrete beams (slab strips) without shear reinforcement. The experimental programme comprises 10 post-tensioned beams and varies two important design parameters; the shear span and the level of prestressing. All beams had a cross-sectional height of 700mm and, outside of the anchorage zone, a width of 250mm.
The shear failure mechanism and the development of the critical shear crack are studied by use of Digital Image Correlation.
The test results are compared to existing design codes with varying accuracy.
Since the shear capacity of beams has been found to be proportional to the width, the shear capacity of one-way spanning slabs can be simulated by rectangular beams. However, in the literature, the majority of the available experimental campaigns on the shear capacity of post-tensioned concrete beams is performed on beams with I- or T-sections. The shear-failure mechanism is, however, not the same for rectangular beams as for beams with I- or T-sections.
This paper studies the shear capacity and the shear failure mechanism of post-tensioned concrete beams (slab strips) without shear reinforcement. The experimental programme comprises 10 post-tensioned beams and varies two important design parameters; the shear span and the level of prestressing. All beams had a cross-sectional height of 700mm and, outside of the anchorage zone, a width of 250mm.
The shear failure mechanism and the development of the critical shear crack are studied by use of Digital Image Correlation.
The test results are compared to existing design codes with varying accuracy.
Original language | English |
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Title of host publication | Concrete Structures : New Trends for Eco-Efficincy and performance. Proceedings of the fib Symposium 2021 held online from Lisbon, Portugal, 14-16 June 2021 |
Editors | E. Julio, A. Valenca, A. S. Louro |
Publisher | International Federation for Structural Concrete |
Publication date | 2021 |
ISBN (Print) | 978-2-940643-08-0 |
Publication status | Published - 2021 |
Event | fib Symposium 2021: Concrete Structures: New Trens for Eco-Efficiency and Performance - Lisbon, Portugal Duration: 13. Jun 2021 → 16. Jun 2021 https://fiblisbon2021.pt/ |
Conference
Conference | fib Symposium 2021: Concrete Structures: New Trens for Eco-Efficiency and Performance |
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Country/Territory | Portugal |
City | Lisbon |
Period | 13/06/2021 → 16/06/2021 |
Internet address |
Keywords
- Shear
- Prestressed concrete
- Post-tensioned concrete
- Experimental research
- Shear failure mechanism