PSI - Issue 64

Zhikang Deng et al. / Procedia Structural Integrity 64 (2024) 400–408 Zhikang Deng / Structural Integrity Procedia 00 (2019) 000 – 000

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Acknowledgements The support of re-fer AG, Glas Trösch AG, and Sika Schweiz AG in providing the necessary materials for the tests is gratefully acknowledged. Furthermore, the authors would like to thank the laboratory staff of the Institute of Structural Engineering at ETH Zurich for their support in preparing the tests. References Achintha, M.., B. Balan. 2019. Mechanical prestressing of annealed glass beams using pretensioned GFRP: Characterisation and potentiality. Structures 20, 11-19. Cagnacci, E., M. Orlando, L. Salvatori., P. Spinelli. 2021. Four-point bending tests on laminated glass beams reinforced with FRP bars adhesively bonded to the glass. Glass Structures & Engineering 6, 211-232. Cupać, J., C. Louter., A. Nussbaumer. 2021. Flexural behaviour of post -tensioned glass beams: Experimental and analytical study of three beam typologies. Composite Structures 255, Deng, Z., V.-A. Silvestru, L. Li, E. Ghafoori., A. Taras. 2023. Structural Performance of Glass to Iron-based Shape Memory Alloy Adhesive Shear Joints Considering the Effect of Temperature, Glass Performance Days 2023. 303-307. Deng, Z., V.-A. Silvestru, J. Michels, L. Li, E. Ghafoori., A. Taras. 2022. Performance of Glass to Iron-based Shape Memory Alloy Adhesive Shear Joints with Different Geometry, Challenging Glass Conference Proceedings 8. EN 572-1. 2016. 572-1: Glass in building-Basic soda-lime silicate glass products-Part 1: Definitions and general physical and mechanical properties. Bruxelles: CEN 1999. ETAG 002, Edition November 1999, Guideline for European technical approval for structural sealant glazing systems (SSGS), Part 1: Supported and unsupported systems. Firmo, F., S. Jordao, L.C. Neves., C. Bedon. 2020. Exploratory study on simple hybrid or pre-stressed steel-glass I-beams under short-term bending - Part 1: Experiments. Composite Structures 234, Hosseini, E., E. Ghafoori, C. Leinenbach, M. Motavalli., S.R. Holdsworth. 2018. Stress recovery and cyclic behaviour of an Fe – Mn – Si shape memory alloy after multiple thermal activation. Smart Materials and Structures 27, Li, L., E. Chatzi, C. Czaderski., E. Ghafoori. 2023a. Influence of activation temperature and prestress on behavior of Fe-SMA bonded joints. Construction and Building Materials 409, Li, L., E. Chatzi., E. Ghafoori. 2023b. Debonding model for nonlinear Fe-SMA strips bonded with nonlinear adhesives. Engineering Fracture Mechanics 282, Li, L., S. Wang, E. Chatzi, M. Motavalli., E. Ghafoori. 2024. Analysis and design recommendations for structures strengthened by prestressed bonded Fe-SMA. Engineering Structures 303, Li, L., W. Wang, E. Chatzi., E. Ghafoori. 2023c. Experimental investigation on debonding behavior of Fe-SMA-to-steel joints. Construction and Building Materials 364, Rocha, J., E. Pereira., J. Sena-Cruz. 2023. Feasibility of mechanical post-tensioning of annealed glass beams by activating externally bonded Fe-SMA reinforcement. Construction and Building Materials 365, Sika. 2021. Additional product information material card SikaPower®-1277. Silvestru, V.-A., Z. Deng., A. Taras. 2023. On predicting the behaviour of an iron-based shape memory alloy with the Ramberg Osgood model, Eurosteel 2023. Silvestru, V.A., Z. Deng, J. Michels, L. Li, E. Ghafoori., A. Taras. 2022a. Application of an iron-based shape memory alloy for post-tensioning glass elements. Submitted to Glass Struct. Eng Silvestru, V.A., Z. Deng, J. Michels., A. Taras. 2022b. Enabling a Ductile Failure of Laminated Glass Beams with Iron ‐ Based Shape Memory Alloy (Fe ‐ SMA) Strips, SDSS 2022. 948-956. Wang, S., L. Li, Q. Su, X. Jiang., E. Ghafoori. 2023. Strengthening of steel beams with adhesively bonded memory-steel strips. Thin-Walled Structures 189,