PSI - Issue 76

Mirco Daniel Chapetti et al. / Procedia Structural Integrity 76 (2026) 89–98

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D’Antuono, P., 2020. An analytical relation between the Weibull and Basquin laws for smooth and notched specimens and application to constant amplitude fatigue. Fatigue Frac Engng Mater Struc 43(5):991–1004. Lukás, P., Kunz, L., Weiss, B., Stickler, R., 1989. Notch size effect in fatigue. Fatigue Fract Eng Mater Struct 12(3):175–86. Meneguetti, G., Rigon, D., Gennari, C., 2018. An analysis of defects influence on axial fatigue strength of mataging steel specimens produced by additive manufacturing. International Journal of Fatigue 2018.08.034. Merot, P., Morel. F., Pessard, E., Gallegos Mayorga, L., Buttin, P., Baffie, T., 2022. Fatigue strength and life assessment of L-PBF 316L stainless steel showing process and corrosion related defects. Engng Fract Mech 276: 108883. Miller, K.J., 1993. The two thresholds of fatigue behaviour. Fat Fract Engng Mater Sruct 16(9):931–9. Murakami, Y., Endo, M., 1994. Effects of defects, inclusions and inhomogeneities on fatigue strength. Int J Fatigue 16(3):163-182. Murakami, Y., 2019. Metal fatigue: Effect of Small Defects and Non-metallic Inclusions. Second Edition. Elsevier. Murakami, Y., Takagi, T., Wada, K., Matsunaga, H., 2020. Essential structure of S-N curve: Prediction of fatigue life and fatigue limit of defective materials and nature of scatter. International Journal of Fatigue 106138. Palmgren, A.G., 1924. Die Lebensgauer von Kugellagern (Life length of Roller Bearings. In German), Z. Vereinesd Dtsch. Ingenieure VDI Z; ISSN 0341-7258. Peters, J.O., Boyce, B.L., Chen, X., McNaney, J.M., Hutchinson, J.W., Ritchie, R.O., 2002. On the application of the Kitagawa-Takahashi diagram to foreign-object damage and high-cycle fatigue. Eng Fract Mech 69:1425–46. Qu, Z., Zhang, Z.J., Zhu, Y.K., Liu, R., Lu, S.L., Li, S.J., Duan, Q.Q., Zhang, B.N., Zhao, M.X., Eckert, J., Zhang, Z.F., 2022. Coupling effects of microstructure and defects on the fatigue properties of laser powder bed fusion Ti-6Al-4V. Additive Manufacturing 103355. Schijve, J., 2009. Fatigue of Structures and Materials, Netherlands, Springer. Shiozawa, K., Lu, L., 2008. Effect of non-metallic inclusion size and residual stresses on gigacycle fatigue properties in high strength steel. 11th International Fatigue Congress 44-46: 33–42. Stromeyer, C.E., 1914. The determination of fatigue limits under alternating stress conditions. Proc R Soc London Ser A, Contain Pap a Math Phys Character 90:411–25. Tanaka, K., Akiniwa, Y., 1988. Resistance curve method for predicting propagation threshold of short fatigue cracks at notches. Eng Fract Mech 30(6):863–76. Yamashita, Y., Murakami, T., Mihara, R., Okada, M., Murakami, Y., 2018. Defect analysis and fatigue design basis for Ni-based superalloy 718 manufactured by selective laser melting. International Journal of Fatigue 117:485-495. Weibull, W, 1949. A statistical representation of fatigue failures in solids. Elander 1-50. Wohler, A, 1860. Versuche zur Ermittlung der auf die Eisenbahnwagenachsen einwirkenden Kraft und die Widerstandsfahigkeit der Wagen Achsen. Z Fur Bauwes 10:583–614. Zerbst, U., Vormwald, M., Pippan, R., Gänser, H.P., Serrazin-Baudoux, C., Madia, M., 2016. About the fatigue crack propagation threshold of metals as a design criterion - a review. Eng Fract Mech 153:190–243.