PSI - Issue 57

Gloria Hofmann et al. / Procedia Structural Integrity 57 (2024) 452–460 Hofmann, G.; Bartsch, H.; Kuhlmann, U.; Feldmann, M.

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fatigue tests. International Journal of Fatigue, 163 , 107093. doi:https://doi.org/10.1016/j.ijfatigue.2022.107093 Bartsch, H., & Feldmann, M. (2023 (under review)). An Investigation into the Influence of Incorrect Root Gaps in Welded-in Stiffeners on Fatigue Performance. International Journal of Fatigue . Bartsch, H., & Feldmann, M. (2023). Fatigue Verification Concept for Details containing Weld Imperfections. Eurosteel 2023. Amsterdam. Bartsch, H., Citarelli, S., & Feldmann, M. (2021). Investigations on the fatigue behaviour of welded-in stiffeners with gaps. Journal of Constructional Steel Research , 107075. doi:https://doi.org/10.1016/j.jcsr.2021.107075 Braun, M., Baumgartner, J., Hofmann, G., Drebenstedt, K., Bauer, N., Bakhschi, H., & Kuhlmann, U. (submitted for puplication 2023). A statistical assessment of the fatigue strength improvement of butt joints by flush grinding. Welding in the World . EN 1993-1-9. (2005). Design of steel structures – Part 1-9: Fatigue. EN ISO 5817. (2014). Welding - Fusion-welded joints in steel, nickel, titanium and their alloys (beam welding exduded) - Quality levels for im perfections. Feldmann, M., Bartsch, H., Ummenhofer, T., Seyfried, B., Kuhlmann, U., & Hofmann, G. (exp. 2024). EVOKERB - Evolution detail catalogue for economically optimised steel structures ("Systematic re-evaluation of essential parameters influencing fatigue strength according to Eurocode") . research project, IGF-No. 21368 N / 1 - Final report (in process). Hirt, M., & Crisinel, A. (1975). La résistance à la fatigue des poutres en âme pleine composées-soudées: effet des plaquettes et goussets soudés à l'aile. Laboratoire de la construction métallique (ICOM). École polytechnique fédérale de Lausanne. Hobbacher, A. (2016). Recommendations for Fatigue Design of Welded Joints and Components − IIW -Document IIW-2259-15 ex XIII-2460-13/XV-1440-13. Springer International Publishing AG Switzerland. Hofmann, G. (in preparation). Systematic re-evaluation of the fatigue strength of specific notch details - Dissertation (working title). Institute of structural design, University of Stuttgart. Kang, S.-K. (2016). Thickness effect of fatigue on butt weld joints. TSCF 2016 Shipbuilders Meeting. Kim, K.-N., Lee, S.-H., & Jung, K.-S. (No 3. Vol. 9 2009). Evaluation of factors affecting the fatigue behaviour of butt-welded joints using SM520C-TMC Steel. International Journal of Steel Structures , S. 185-193. Polezhayeva, H., & Badger, C. (2009). Effect of Plate Thickness on Fatigue Strength of Base Material and Butt Welded Specimens Made from EH40 Steel Thick Plates: Phase 1. Conference ISOPE. Osaka. prEN 1993-1-9. (2023). Eurocode 3 Design of steel structures – Part 1.9: Fatigue, draft, European committee for standardisation CEN/TC 250/SC 3 N3751. Puthli, R., Herion, S., & Bergers, J. (2006). Evaluation of the fatigue behaviour of crane structures made of high strength and ultra high-strength steels. Düsseldorf: FOSTA, Forschungsvereinigung Stahlanwendungen e.V. im Stahlzentrum. Verl. und Vertriebs-ges.