Experimental characterization of bond between concrete and HDG steel tubes for mixed steel-concrete structures
Author(s): |
Fábio Cruz
Isabel Valente João Almeida Ana Neves Eduardo Pereira |
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Medium: | journal article |
Language(s): | English |
Published in: | Materials and Structures, 12 April 2024, n. 4, v. 57 |
DOI: | 10.1617/s11527-024-02352-8 |
Abstract: |
Bond between concrete and reinforcement material is crucial for the structural behaviour and design of reinforced concrete or mixed steel-concrete structures. When considering applications in harsh environments, such as severe marine exposure or submerged conditions, hot-dip galvanized (HDG) steel seems to be a promising solution, as part of new mixed steel-concrete structural systems. Although it is essential to guarantee an effective composite response, the interaction and bond behaviour between materials is not yet sufficiently well understood. This experimental investigation aimed to study the bond behaviour between concrete and HDG steel tubes, including the influence of adopting concrete pin connectors by creating holes in the tube profile, and also the influence of the galvanic surface state. The impact of bond length on the bond behaviour of the galvanized steel tube embedded in different concrete mixtures was analysed. Pushout tests were conducted to obtain the load end versus slip responses, as well as the failure modes. The results showed that the embedment lengths and the concrete compositions had no relevant effect on the overall shape of the pushout experimental responses, with the exception of the specimens that include the concrete pin connector. However, both variables clearly influenced the bond stress, dissipated energy during pushout until failure, and residual pushout force. The addition of the concrete pin significantly improved the adherence mechanism, while the contamination of the galvanic surface showed to significantly reduce the bond strength. |
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data sheet - Reference-ID
10784615 - Published on:
20/06/2024 - Last updated on:
20/06/2024