PSI - Issue 40

Sergey Smirnov et al. / Procedia Structural Integrity 40 (2022) 378–384 Sergey Smirnov, Marina Myasnikova / Structural Integrity Procedia 00 (2022) 000 – 000

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particles in the soft phase of alloys to the stress stiffness coefficient. The technique has been applied to constructing a diagram of ultimate strain for (Fe;Mn) 5 Si 3 silicides of complexly alloyed brass. Damage accumulation in (Fe;Mn) 5 Si 3 silicides prior to fracture has been simulated. Acknowledgements This work was supported by program AAAА -A18-118020790145-0 of the basic researches of the Institute of Engineering Science, Ural Branch of the Russian Academy of Sciences. References Smirnov, S., Myasnikova, M., Pugacheva, N., 2016. Hierarchical simulation of plastic deformation and fracture of complexly alloyed brass. International Journal of Damage Mechanics 25(2), 251–265. Pyo S., Lee H., 2009. Micromechanics - based elastic - damage analysis of laminated composite structures. International Journal of Solids and Structures 46(17), 3138–3149. Pavan R., Creus G., Maghous S., 2009. A simplified approach to continuous damage of composite materials and micromechanical analysis. Composite Structures 91(1), 84–94. Kolmogorov V., 2001. Mechanics of Metal Forming (Mechanika obrabotki metallov davleniem). (2nd ed). GOU VPO UGTU - UPI, Ekaberinburg, pp 836 (in Russian). Pugacheva N., Michurov N., Bykova T., 2016. Structure and properties of the Al/SiC composite material. The Physics of Metals and Metallography 117(6), 654 - 660. Haritos G., Hager J., Amos A, Salkind M., Wang A.., 1988. The microstructure–mechanics connection. International Journal of Solids and Structures. Mesomechanics 24(11), 1081–1096. Smirnov S., Konovalov A., Myasnikova M., Khalevitsky Yu., Smirnov A., 2017. Hierarchical modeling of deformation and damage of metal matrix composite under uniaxial loading conditions. IOP Conf. Series: Materials Science and Engineering 208, 012037. Smirnov S, Pugacheva N., Tropotov A., Soloshenko A., 2001. Resistance to deformation of structural constituents of a high - alloy brass. The Physics of Metals and Metallography 91(2), 210–215. Smirnov S., Vichuzhanin D., Nesterenko A., Igumnov A., 2016. A fracture locus for commercially pure aluminum at 300 °C. AIP Conference Proceedings 1785, 040067.