PSI - Issue 64

950 A. Cagnoni et al. / Procedia Structural Integrity 64 (2024) 944–950 Alessandro Cagnoni, Pierluigi Colombi, Marco A. Pisani, Tommaso D’Antino / Structural Integrity Procedia 00 (2019) 000 – 000 7 Acknowledgements Sireg Geotech srl is gratefully acknowledged for providing the composite bars. The experimental tests discussed in this paper were performed at the Laboratorio Prove Materiali of the Politecnico di Milano. References Al-Mayah, A., Soudki, K., and Plumtree, A., 2006. Development and Assessment of a New CFRP Rod – Anchor System for Prestressed Concrete, Applied Composite Materials, 13, 321 – 34. Al-Mayah, A., Soudki, K., and Plumtree, A., 2013. Simplified Anchor System for CFRP Rods, Journal of Composites for Construction, 17(5), 584 – 90. American society for testing and materials (ASTM), 2021. D7205/D7205M-21 - Standard test method for tensile properties of fiber reinforced polymer matrix composite bars. Burningham, C. A., Pantelides, C. P., and Reaveley, L. D., 2014. New unibody clamp anchors for post-tensioning carbon-fiber reinforced polymer rods, PCI Journal, 59(1), 103 – 13. Cai, D., Yin, J., and Liu, R., 2015. Experimental and analytical investigation into the stress performance of composite anchors for CFRP tendons, Composites Part B: Engineering, 79, 530 – 4. Harajli, M. H., 1993. Strengthening of concrete beams by external prestressing, PRECAST/PRESTRESSED CONCRETE INSTITUTE. JOURNAL, 38(6). Heydarinouri, H., Motavalli, M., Nussbaumer, A., and Ghafoori, E., 2021. Development of a Mechanical Wedge – Barrel Anchor for CFRP Rods: Static and Fatigue Behaviors, Journal of Composites for Construction, 25(3), 04021015. Jia, L., Wang, B., and Tafsirojjaman, T., 2022. Experimental Research on Bonded Anchorage of Carbon Fiber Reinforced Polymer Prestressed Strands, Polymers, 14(19), 4015. Mei, K., Sun, Y., Sun, S., Ren, X., and Zhao, J., 2020. Experimental investigation on the mechanical properties of a novel anchorage for carbon fiber reinforced polymer (CFRP) tendon, Composite Structures, 234, 111704. Saeed, Y. M., Al-Obaidi, S. M., Al-hasany, E. G., and Rad, F. N., 2020. Evaluation of a new bond-type anchorage system with expansive grout for a single FRP rod, Construction and Building Materials, 261, 120004. Schmidt, J. W., Bennitz, A., Goltermann, P., and Ravn, D. L., 2012. External post-tensioning of CFRP tendons using integrated sleeve-wedge anchorage. Shi, J., Wang, X., Wu, Z., and Zhu, Z., 2022. Optimization of anchorage and deviator for concrete beams prestressed with external fiber-reinforced polymer tendons, Composite Structures, 297, 115970. Terrasi, G. P., Affolter, C., and Barbezat, M., 2011. Numerical Optimization of a Compact and Reusable Pretensioning Anchorage System for CFRP Tendons, Journal of Composites for Construction, 15(2), 126 – 35. Ye, Y., and Guo, Z., 2011. Experimental Investigation on the Anchorage Performance of Clamping Anchors for Carbon Fiber Reinforced Polymer Rods, Advanced Science Letters, 4, 922 – 6. Zhang, B., and Benmokrane, B., 2004. Design and evaluation of a new bond-type anchorage system for fiber reinforced polymer tendons, Canadian Journal of Civil Engineering, 31(1), 14 – 26. Züst, G.-L., Ott, V., and Terrasi, G. P., 2022. Development of a Pretensioning Anchorage for Sand-Coated CFRP Tendons: Modeling and Validation, Polymers, 14(24), 5531.