PSI - Issue 75

Ralf Glienke et al. / Procedia Structural Integrity 75 (2025) 474–488

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Ralf Glienke et al. / Structural Integrity Procedia 00 (2019) 000 – 000

IIW Recommendations (2024): Recommendations for Fatigue Design of Welded Joints and Components - Third Edition - IIW document ex IIW 2259-15 XIII-3004-2023/ XV-1649-2022. Wilhelmshaven: Springer Verlag. Kalkowsky, F.; Glienke, R.; Aljomaa, M.; Stranghöner, N.; Schröder, M.; Flügge, W. (2025a): Neue Erkenntnisse zur Ermüdungsfestigkeit von geschraubten Verbindungen im Stahlbau (in preparation). In: Stahlbau (8). Kalkowsky, F.; Glienke, R.; Holch, A.; Henkel, K.-M. (2025b): Fatigue strength verification of bearing type connection with mechanical fasteners – A comparison of Eurocode 3 and effective notch stress concept (in preparation). In: Structural Integrity Procedia . Kalkowsky, Florian; Schröder, Markus; Blunk, Christoph; Glienke, Ralf; Alex, Jörg; Flügge, Wilko (2024): Remaining Fatigue Strength of an Orthotropic Steel Deck with Respect to a Repair Method by Cold Joining Techniques. Steel bridges Prague, 2024. Lipiäinen, K. (2022): Fatigue performance and the effect of manufacturing quality on the uncoated and hot-dip galvanized ultra-high-strength steel laser cut edges. Dissertation. Lappeenranta-Lahti University of Technology LUT, Lappeenranta. Lotsberg, I. (2016): FATIGUE DESIGN OF MARINE STRUCTURES: Cambridge University Press. Lotsberg, I. (2025a): Assessment of internal defects in flush ground butt welds in marine structures. In: Marine Structures , S. 1 – 16. DOI: 10.1016/j.marstruc.2024.103696. Lotsberg, I. (2025b): Derivation of design S-N curves for butt welds in support structures for wind turbines. In: Marine Structures (102), S. 1 – 17. DOI: 10.1016/j.marstruc.2025.103795. Marquis, G.; Barsoum, Z. (2016): IIW Recommendations for the HFMI Treatment. For Improving the Fatigue Strength of Welded joints. ISO 6507-1, 2024: Metallic materials - Vickers hardness test - Part 1: Test method. Nitschke-Pagel, Thomas; Wohlfahrt, Helmut (2006): Anwendung des lokalen Dauerfestigkeitskonzepts Anwendung des lokalen Dauerfestigkeitskonzepts zur Bewertung der Wirksamkeit von Schweißnahtnachbehandlungsmaßnahmen. In: International Journal of Material Research 97 (12), S. 1697 – 1705. Pedersen, M. (2024): Introduction to Metal Fatigue Concepts and Engineering Approaches. 3rd ed. Ponslet, E; Steinzig, M (2003a): Residual Stress Measurement Using the Hole Drilling Method and Laser Speckle Interferometry: Part II. In: Experimental Techniques 27 (4), S. 17 – 21. Ponslet, E; Steinzig, M (2003b): Residual Stress Measurement Using the Hole Drilling Method and Laser Speckle Interferometry: Part III. In: Experimental Techniques 27 (5), S. 45 – 48. ISO 8503-4, 2012: Preparation of steel substrates before application of paints and related products - Surface roughness characteristics of blast cleaned steel substrates - Part 4: Method for the calibration of ISO surface profile comparators and for the determination of surface profile - Stylus instrument procedure. ISO 8501-1, 2007: Preparation of steel substrates before application of paints and related products - Visual assessment of surface cleanliness - Part 1: Rust grades and preparation grades of uncoated steel substrates and of steel substrates after overall removal of previous coatings. SAE J 443, 2024: Procedures for Determining and Verifying Peening Intensity. ISO 11124-3, 2018: reparation of steel substrates before application of paints and related products - Specifications for metallic blast-cleaning abrasives - Part 3: High-carbon cast-steel shot and grit. Schröder, M.; Glienke, R.; Schwerdt, D.; Flügge, W.; Kalkowsky, F.; Stranghöner, N.; Aljomaa, M. (2025): Investigations into the Fatigue Strength of Thermally Cut Edges in Steel Structures Considering Post-Treatment Methods. In: International Journal of Offshore and Polar Engineering . Schütz, W. (1965): Über eine Beziehung zwischen der Lebensdauer bei konstanter und bei veränderlicher Beanspruchungsamplitude und ihre Anwendbarkeit auf die Bemessung von Flugzeugbauteilen. Dissertation. Technische Hochschule München, München. Seidel, M. (Hg.) (2025): Fatigue resistance of butt welds. Advanced simulation and special aspects. TÜV SÜD Towers Conference. München, February 27-38, 2025. Shojai, S.; Brömer, T.; Ghafoori, E.; Woitzik, C.; Braun, M.; Köhler, M.; Schaumann, P. (2023): Assessment of corrosion fatigue in welded joints using 3D surface scans, digital image correlation, hardness measurements, and residual stress analysis. In: International Journal of Fatigue (176). DOI: 10.1016/j.ijfatigue.2023.107866. SAE J 2277, 2023: Shot Peening Coverage Determination. ASTM E 837, 2020: Standard Test Method for Determining Residual Stresses by the Hole-Drilling Strain-Gage Method. Steinzig, M; Ponslet, E (2003a): Residual Stress Measurement Using the Hole Drilling Method and Laser Speckle Interferometry: Part I. In: Experimental Techniques 27 (3), S. 43 – 46.