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Punching shear and flexural performance of ultra-high performance fibre reinforced concrete (UHPFRC) slabs
Abstract Ultra-High Performance Fibre Reinforced Concrete (UHPFRC) is a high-performance cementitious composite that is characterised by superior mechanical properties, high energy absorption capacity and enhanced durability. The mechanical characteristics of UHPFRC and more specifically the enhanced tensile strength and the significant energy absorption and crack resistance make it a very popular material, especially for extreme loading conditions or in cases of thin load bearing elements. UHPFRC has been recently introduced in applications such as bridge decks, and thin slabs and for the strengthening of existing elements. However, the punching shear performance and the effect of the fibres on the punching shear strength of UHPFRC have not been sufficiently studied. Also, there is a lack of provisions for the punching shear design of UHPFRC, which limits the extensive application of UHPFRC in thin elements especially when there are concentrated loads. In this study, extensive experimental work has been conducted on slabs with different geometries and various mixes and valuable results are presented for the flexural and the punching shear capacities of UHPFRC. Also, methodologies for the calculation of the punching shear and the flexural capacities of UHPFRC slabs have been examined and important conclusions have been drawn.
Highlights UHPFRC slabs failure mode is highly depended on the mix composition, the thickness of the slabs and the loading conditions. Increment of steel fibre volume fraction leads to significant enhancement of the punching shear strength of UHPFRC. Addition of steel bars leads to further enhancement of the UHPFRC punching shear capacity. Yield line analysis leads to a significant overestimation of the flexural strength capacity of UHPFRC slabs.
Punching shear and flexural performance of ultra-high performance fibre reinforced concrete (UHPFRC) slabs
Abstract Ultra-High Performance Fibre Reinforced Concrete (UHPFRC) is a high-performance cementitious composite that is characterised by superior mechanical properties, high energy absorption capacity and enhanced durability. The mechanical characteristics of UHPFRC and more specifically the enhanced tensile strength and the significant energy absorption and crack resistance make it a very popular material, especially for extreme loading conditions or in cases of thin load bearing elements. UHPFRC has been recently introduced in applications such as bridge decks, and thin slabs and for the strengthening of existing elements. However, the punching shear performance and the effect of the fibres on the punching shear strength of UHPFRC have not been sufficiently studied. Also, there is a lack of provisions for the punching shear design of UHPFRC, which limits the extensive application of UHPFRC in thin elements especially when there are concentrated loads. In this study, extensive experimental work has been conducted on slabs with different geometries and various mixes and valuable results are presented for the flexural and the punching shear capacities of UHPFRC. Also, methodologies for the calculation of the punching shear and the flexural capacities of UHPFRC slabs have been examined and important conclusions have been drawn.
Highlights UHPFRC slabs failure mode is highly depended on the mix composition, the thickness of the slabs and the loading conditions. Increment of steel fibre volume fraction leads to significant enhancement of the punching shear strength of UHPFRC. Addition of steel bars leads to further enhancement of the UHPFRC punching shear capacity. Yield line analysis leads to a significant overestimation of the flexural strength capacity of UHPFRC slabs.
Punching shear and flexural performance of ultra-high performance fibre reinforced concrete (UHPFRC) slabs
Lampropoulos, Andreas (author) / Tsioulou, Ourania (author) / Mina, Anna (author) / Nicolaides, Demetris (author) / Petrou, Michael F. (author)
Engineering Structures ; 281
2023-02-12
Article (Journal)
Electronic Resource
English
Punching shear and flexural strengths of ultra high performance concrete slabs
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