Issue 53

C. Navarro et alii, Frattura ed Integrità Strutturale, 53 (2020) 337-344; DOI: 10.3221/IGF-ESIS.53.26 344 [20] Bagherifard, S., Berette, N., Monti, S., Riccio, M., Bandini, M. and Guagliano, M. (2018). On the fatigue strength enhancement of additive manufactured AlSi10Mg parts by mechanical and thermal post-processing, Materials & Design, 145, pp. 28-41. [21] Schajer, GS. (1988). Measurement of Non-Uniform Residual Stresses Using the Hole-Drilling Method. Part I—Stress Calculation Procedures. J Eng Mater Technol, 110, pp. 338-343. DOI:10.1115/1.3226059. [22] Schajer, GS. (1988). Measurement of Non-Uniform Residual Stresses Using the Hole-Drilling Method. Part II— Practical Application of the Integral Method. J Eng Mater Technol, 110, pp. 344-349. DOI:10.1115/1.3226060. [23] Vázquez, J., Navarro, C. and Domínguez, J. (2012). Experimental Results in Fretting Fatigue with Shot and Laser Peened Al 7075-T651 Specimens, International Journal of Fatigue, 40, pp. 143-153. [24] Martín, V., Vázquez, J, Navarro, C and Domínguez, J. (2020). Effect of shot peening residual stresses and surface roughness on fretting fatigue strength of Al 7075-T651, Tribology International, 142, 106004. [25] Walker K. (1970). The effect of stress ratio during crack propagation and fatigue for 2024-T3 and 7075-T6 aluminum. Effects Environ Complex Load History on Fatigue Life, ASTM STP 462, pp. 1–14. [26] Dowling NE, Calhoun CA, Arcari A. (2009). Mean stress effects in stress ‐ life fatigue and the Walker equation. Fatigue Fract Eng Mater Struct., 32, pp. 163 ‐ 179. [27] Metallic Materials Properties Development and Standardization (MMPDS-05), Battelle Memorial Institute; 2010. http://app.knovel.com/hotlink/toc/id :kpMMPDSM11/metallic-materials-properties/metallic-materials-properties. [28] Kasperovich, G. and Hausmann, J. (2015). Improvement of Fatigue Resistance and Ductility of Ti6Al4V processed by Selective Laser Melting, Journal of Materials Processing Technology, 220, pp.202-214. [29] Tammas-Williams, S., Withers, P.J., Todd, I and Prangnell, P.B. (2016). The Effectiveness of Hot Isostatic Pressing for Closing Porosity in Titanium Parts Manufactured by Selective Electron Beam melting, Metall and Mat Trans A, 47A, pp. 1939-1946, DOI:10.1007/s11661-016-3429-3. [30] Shunyu, L., Yung, C. S. (2019). Additive manufacturing of Ti6Al4V alloy: A review, Materials & Design, 164, 107552, DOI: 10.1016/j.matdes.2018.107552.