Fatigue Tests on Fe-SMA Strengthened Steel Plates Considering Thermal Effects

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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  • Tongji University
  • Hong Kong Polytechnic University
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OriginalspracheEnglisch
Aufsatznummer04022255
FachzeitschriftJournal of Structural Engineering (United States)
Jahrgang149
Ausgabenummer3
Frühes Online-Datum23 Dez. 2022
PublikationsstatusVeröffentlicht - März 2023

Abstract

An iron-based shape memory alloy (Fe-SMA) can be used to conveniently apply prestress strengthening via a heating and cooling procedure. Material-level tests demonstrated that prestress of Fe-SMAs is sensitive to mechanical and thermal loading. Durability of steel structures strengthened by Fe-SMAs when subjected to harsh service conditions, such as coupled thermomechanical cycles is not fully understood. In this study, high-cycle fatigue tests were conducted on damaged steel plates retrofitted with Fe-SMA strips. Four temperature scenarios were adopted: room temperature (RT), a low temperature (LT) of -20°C, a high temperature (HT) of 60°C, and a cyclic temperature (CT) from -20°C to 60°C. Results showed that regardless of temperature variation, the Fe-SMA presented reliable repairing effects on steel plates, of which, the fatigue life was 2.1-3.5 times larger than that of the unstrengthened samples. The difference in coefficients of thermal expansion (CTEs) between the Fe-SMA and steel, as well as loss of prestress of the Fe-SMA due to fatigue and thermal loading, both affected the fatigue performance of the retrofitted specimens.

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Fatigue Tests on Fe-SMA Strengthened Steel Plates Considering Thermal Effects. / Chen, Zhen Yu; Gu, Xiang Lin; Zhao, Xiao Ling et al.
in: Journal of Structural Engineering (United States), Jahrgang 149, Nr. 3, 04022255, 03.2023.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Chen ZY, Gu XL, Zhao XL, Ghafoori E, Yu QQ. Fatigue Tests on Fe-SMA Strengthened Steel Plates Considering Thermal Effects. Journal of Structural Engineering (United States). 2023 Mär;149(3):04022255. Epub 2022 Dez 23. doi: 10.1061/JSENDH.STENG-11694
Chen, Zhen Yu ; Gu, Xiang Lin ; Zhao, Xiao Ling et al. / Fatigue Tests on Fe-SMA Strengthened Steel Plates Considering Thermal Effects. in: Journal of Structural Engineering (United States). 2023 ; Jahrgang 149, Nr. 3.
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AU - Yu, Qian Qian

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N2 - An iron-based shape memory alloy (Fe-SMA) can be used to conveniently apply prestress strengthening via a heating and cooling procedure. Material-level tests demonstrated that prestress of Fe-SMAs is sensitive to mechanical and thermal loading. Durability of steel structures strengthened by Fe-SMAs when subjected to harsh service conditions, such as coupled thermomechanical cycles is not fully understood. In this study, high-cycle fatigue tests were conducted on damaged steel plates retrofitted with Fe-SMA strips. Four temperature scenarios were adopted: room temperature (RT), a low temperature (LT) of -20°C, a high temperature (HT) of 60°C, and a cyclic temperature (CT) from -20°C to 60°C. Results showed that regardless of temperature variation, the Fe-SMA presented reliable repairing effects on steel plates, of which, the fatigue life was 2.1-3.5 times larger than that of the unstrengthened samples. The difference in coefficients of thermal expansion (CTEs) between the Fe-SMA and steel, as well as loss of prestress of the Fe-SMA due to fatigue and thermal loading, both affected the fatigue performance of the retrofitted specimens.

AB - An iron-based shape memory alloy (Fe-SMA) can be used to conveniently apply prestress strengthening via a heating and cooling procedure. Material-level tests demonstrated that prestress of Fe-SMAs is sensitive to mechanical and thermal loading. Durability of steel structures strengthened by Fe-SMAs when subjected to harsh service conditions, such as coupled thermomechanical cycles is not fully understood. In this study, high-cycle fatigue tests were conducted on damaged steel plates retrofitted with Fe-SMA strips. Four temperature scenarios were adopted: room temperature (RT), a low temperature (LT) of -20°C, a high temperature (HT) of 60°C, and a cyclic temperature (CT) from -20°C to 60°C. Results showed that regardless of temperature variation, the Fe-SMA presented reliable repairing effects on steel plates, of which, the fatigue life was 2.1-3.5 times larger than that of the unstrengthened samples. The difference in coefficients of thermal expansion (CTEs) between the Fe-SMA and steel, as well as loss of prestress of the Fe-SMA due to fatigue and thermal loading, both affected the fatigue performance of the retrofitted specimens.

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