PSI - Issue 42

Iulian-Ionut AILINEI et al. / Procedia Structural Integrity 42 (2022) 1422–1427 Author name / Structural Integrity Procedia 00 (2019) 000 – 000

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By performing more test runs to ensure the statistical meaning of the experimental data, the anisotropy generated by the rolling direction can be estimated and incorporated into Finite Element models and then used in the design of industrial products. Acknowledgements The project leading to this application has received funding from the European Union's Horizon 2020 research and innovation program under grant agreement No 857124. References Ailinei I.-I., Galatanu S.-V., Marsavina L., 2022. Influence of anisotropy on the cold bending of S600MC sheet metal, Engineering Failure Analysis, SI: VSI: ICEAFVI, https://doi.org/10.1016/j.engfailanal.2022.106206, 2022. Ailinei I.-I., Galatanu S.-V., Marsavina L., 2022. Influence of deposition direction on vibration characteristics of 3D printed abs test specimens. Structural integrity and life. Vol. 22, No , pp. 25–28. Banabic D., Bunge H.-J., Pöhlandt K., Tekkaya A. E., 2000. Formability of Metallic Materials, Springer-Verlag, Print ISBN: 978-3-642 08750-9, Electronic ISBN: 978-3-662-04013-3. Cesnik M., Slavic J., Boltezar M.,(2012), Uninterrupted and accelerated vibrational fatigue testing with simultaneous natural frequency and damping monitoring. Journal of Sound and Vibration, Volume 331, Issue 24, Pages 5370-5382, ISSN 0022-460X, doi.org/10.1016/j.jsv.2012.06.022. George T.J., Seidt J., Shen M.H.H., Nicholas T., Cross C.J. (2004), Development of a novel vibration-based fatigue testing methodology, International Journal of Fatigue 26 477–486. ISO 20753:2018 Plastics-Test specimens, Berlin. Mazurek D.F., DeWolf J.T. (1990) Experimental study of bridge monitoring technique, Journal of Structural Engineering 116 2532–2549. Moisa R., Gala ţanu S. V. , Simoiu D., Voica C., Crâştiu I. and Bereteu L. (2021), "Mechanical Impulse Technique Used to determine the Elastique Characteristics of Welded Steel Bars of Concrete Reinforcements Compared with those Obtained by Analytical, Numerical and Experimental Methods," 2021 IEEE 15th International Symposium on Applied Computational Intelligence and Informatics (SACI), 2021, pp. 237 244, DOI: 10.1109/SACI51354.2021.9465572. Salawu O.S. (1997), Detection of structural damage through changes in frequency: a review, Engineering Structures 19 718–723. Silas Gh., Mecanica. Vibratii Mecanice, Ed. Didactica si Pedagogica, 1968 (in Romanian). Vanlanduit S., Verboven P., Guillaume P. (2003), On-line detection of fatigue cracks using an automatic mode tracking technique, Journal of Sound and Vibration 266, 805–814. Yan Y.J., Cheng L., Wu Z.Y., Yam L.H. (2007), Development in vibration-based structural damage detection technique, Mechanical Systems and Signal Processing 21 2198–2211.