Realistic evaluation of reinforcement bond strength in alkali-activated slag concrete exposed to elevated temperature
International Journal of Concrete Structures and Materials, 2023•Springer
Alkali-activated concrete (AAC) has attained great popularity since finding it as an
alternative to Portland cement concrete due to its superior characteristics in terms of
mechanical properties and durability, and its low negative environmental impact. This
research investigated both experimentally and analytically the bond behavior between alkali-
activated slag concrete (AASC) and steel rebars considering some important parameters
(rebar diameter and development length-to-diameter ratio) before and after exposure to …
alternative to Portland cement concrete due to its superior characteristics in terms of
mechanical properties and durability, and its low negative environmental impact. This
research investigated both experimentally and analytically the bond behavior between alkali-
activated slag concrete (AASC) and steel rebars considering some important parameters
(rebar diameter and development length-to-diameter ratio) before and after exposure to …
Abstract
Alkali-activated concrete (AAC) has attained great popularity since finding it as an alternative to Portland cement concrete due to its superior characteristics in terms of mechanical properties and durability, and its low negative environmental impact. This research investigated both experimentally and analytically the bond behavior between alkali-activated slag concrete (AASC) and steel rebars considering some important parameters (rebar diameter and development length-to-diameter ratio) before and after exposure to elevated temperature using beam-end bond testing technique. The obtained experimental results were compared with those obtained from applying the CEB-FIP model and the well-known available equations in the literature. A modified model was proposed for predicting the bond behavior of AASC. Results have showed that the CEB-FIP model provides more conservative values for bond strength compared to the experimentally obtained results which increases the safety level when estimating the bond strength for design purposes. The proposed modified model achieved a higher correlation with the experimental results than the CEB-FIP model at ambient temperature.
Springer
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