The extended Bonora damage model was used to investigate joinability of materials in self-piercing riveting process. This updated model formulation accounts for void nucleation and growth process and shear-controlled damage which is critical for shear fracture sensitive... View more
 Mori, K., Kato, T., Abe, Y. and Ravshanbek, Y. (2006). Plastic joining of ultra high strength steel and aluminium alloy sheets by self piercing rivet. CIRP Annals-Manufacturing Technology, 55, pp. 283-286.
 Atzeni, E., Ippolito, R. and Settineri, L. (2007). FEM modeling of self-piercing riveted joint. Key Engineering Materials, Trans Tech Publ, 655-662.
 He, X., Xing, B., Zeng, K., Gu, F. and Ball, A. (2013). Numerical and experimental investigations of self-piercing riveting. The International Journal of Advanced Manufacturing Technology, 69, pp. 715-721.
 Su, Z.-M., Lin, P.-C., Lai, W.-J. and Pan, J. Fatigue analyses of self-piercing rivets and clinch joints in lap-shear specimens of aluminum sheets. International Journal of Fatigue, (2015) 72, pp. 53-65.
 Abe, Y., Kato, T. and Mori, K. (2006). Joinability of aluminium alloy and mild steel sheets by self piercing rivet. Journal of Materials Processing Technology, 177, pp. 417-421.
 Kato, T., Abe, Y. and Mori, K. (2007). Finite element simulation of self-piercing riveting of three aluminium alloy sheets. Key Engineering Materials, Trans Tech Publ, 1461-1466.
 Cacko, R. (2008). Review of different material separation criteria in numerical modeling of the self-piercing riveting process-SPR. Archives of Civil and Mechanical Engineering, 8, pp. 21-30.
 Bonora, N. (1997). A nonlinear CDM model for ductile failure. Engineering Fracture Mechanics, 58, pp. 11-28.
 Lemaitre, J. (1985). A continuous damage mechanics model for ductile fracture. Journal of Engineering Material and Technology, 107, pp. 83-89.
 Iannitti, G., Bonora, N., Ruggiero, A. and Testa, G. (2014). Ductile damage in Taylor-anvil and rod-on-rod impact experiment. Journal of Physics: Conference Series, 500.