PSI - Issue 68

Emanuele Vincenzo Arcieri et al. / Procedia Structural Integrity 68 (2025) 969–973 E.V. Arcieri and S. Baragetti / Structural Integrity Procedia 00 (2025) 000–000

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This would confirm the accuracy of the simulation and further contribute to optimizing the design of bicycle frames for enhanced integrity and durability. After the model validation, the finite element results could be used to predict the fatigue strength of the frame. Acknowledgements Funded by the European Union – Next Generation EU, PNRR - M4C2 INV. 1.4 National Center for Sustainable Mobility – MOST (CN00000023 - CUP F13C22000690001) References Amiri, A, Krosbakken, T., Schoen, W., Theisen, D., Ulven, C.A., 2018. Design and manufacturing of a hybrid flax/carbon fiber composite bicycle frame. Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology 232, 28-38. BS EN ISO 4210-6:2015, Cycles — Safety requirements for bicycles, Part 6: Frame and fork test method. Chew, L.W., Nazarian, N., Norford L., 2017. Pedestrian-level urban wind flow enhancement with wind catchers. Atmosphere, 8 . Goodman, A., Rojas, I.F., Woodcock, J., Aldred, R., Berkoff, N., Morgan, M., Abbas, A., Lovelace, R., 2019. Scenarios of cycling to school in England, and associated health and carbon impacts: application of the ‘Propensity to Cycle Tool’. Journal of Transport and Health 12, 263 278. Lin, C.C., Huang, S. J., Liu, C.C., 2017. Structural analysis and optimization of bicycle frame designs. Advances in Mechanical Engineering, 9. Maleque, M. A., Dyuti, S., 2010. Materials selection of a bicycle frame using cost per unit property and digital logic methods. International Journal of Mechanical and Materials Engineering 5, 95-100. Nematchoua, M., Deuse, C., Cools, M., Reiter, S., 2020. Evaluation of the potential of classic and electric bicycle commuting as an impetus for the transition towards environmentally sustainable cities: A case study of the university campuses in Liege, Belgium. Renewable and Sustainable Energy Reviews 119, 109544. Regenwetter, L., Weaver, C., Ahmed, F., 2023. FRAMED: An AutoML Approach for Structural Performance Prediction of Bicycle Frames. Computer-Aided Design 156, 103446. Tomaszewski, T., 2021. Fatigue life analysis of steel bicycle frame according to ISO 4210. Engineering Failure Analysis 122, 105195. Zhao, P., 2014. The impact of the built environment on bicycle commuting: evidence from Beijing. Urban Studies 51, 1019-1037.