PSI - Issue 53

Luca Marchini et al. / Procedia Structural Integrity 53 (2024) 203–211 Author name / Structural Integrity Procedia 00 (2019) 000–000

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ascertain how the observed differences are related to the respective microstructures or are influenced predominantly by chemical factors. Acknowledgements Financed by the European Union—NextGenerationEU (National Sustainable Mobility Center CN00000023, Italian Ministry of University and Research Decree n. 1033—17/06/2022, Spoke 11—Innovative Materials & Lightweighting - CUP D83C22000690001). The opinions expressed are those of the authors only and should not be considered as representative of the European Union or the European Commission’s official position. Neither the European Union nor the European Commission can be held responsible for them. The authors would like to acknowledge MSc. Eng. A. Magistrelli of Bonomi Acciai for the preparation of the samples and FMB s.r.l. for the for the supply of aluminum alloy. References Brooks, H.; Brigden, K. Design of conformal cooling layers with self-supporting lattices for additively manufactured tooling. Additive Manufacturing, 2016. Cecchel, S. et al. Lightweighting in light commercial vehicles: cradle-to-grave life cycle assessment of a safety-relevant component. International Journal of Life Cycle Assessment, v. 23, n. 10, p. 2043-2054, 2018. Chen, S. et al. Interaction Between the Growth and Dissolution of Intermetallic Compounds in the Interfacial Reaction Between Solid Iron and Liquid Aluminum. Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, v. 47, n. 10, p. 5088-5100, 2016. Dangi, B.; Brown, T. W.; Kulkarni, K. N. Effect of silicon, manganese and nickel present in iron on the intermetallic growth at iron - aluminum alloy interface. Journal of Alloys and Compounds, v. 769, p. 777-787, 2018. European, C. et al. Study on the critical raw materials for the EU 2023 – Final report. Publications Office of the European Union, 2023. Nazari, K. A.; Shabestari, S. G. Effect of micro alloying elements on the interfacial reactions between molten aluminum alloy and tool steel. Journal of Alloys and Compounds, v. 478, n. 1-2, p. 523-530, 2009. Piek ł o, J.; Garbacz-Klempka, A. Use of Maraging Steel 1.2709 for Implementing Parts of Pressure Mold Devices with Conformal Cooling System. Materials. 2020. Springer, H. et al. On the formation and growth of intermetallic phases during interdiffusion between low-carbon steel and aluminum alloys. Acta Materialia, v. 59, n. 4, p. 1586-1600, 2011 Tonolini, P. et al. Wear and corrosion behavior of 18Ni-300 maraging steel produced by laser-based powder bed fusion and conventional route. Procedia Structural Integrity, 2022. p.821-829. Venkatesh, G.; Ravi Kumar, Y.; Raghavendra, G. Comparison of Straight Line to Conformal Cooling Channel in Injection Molding. Materials Today: Proceedings, v. 4, n. 2, Part A, p. 1167-1173, 2017. Xu, G. et al. Review on corrosion resistance of mild steels in liquid aluminum. Journal of Materials Science & Technology, v. 71, p. 12-22, 2021. Zou, T.-P. et al. Effect of Si content on interfacial reaction and properties between solid steel and liquid aluminum. Transactions of Nonferrous Metals Society of China, v. 31, n. 9, p. 2570-2584, 2021.