Gordienko, Y.Y.GordienkoKuznetsov, P.P.KuznetsovZasimchuk, E.E.ZasimchukGontareva, R.R.GontarevaSchreiber, J.J.SchreiberKarbovsky, V.V.Karbovsky2022-03-102022-03-102008https://publica.fraunhofer.de/handle/publica/361536The substructure evolution was observed in the range of scales from dozens nanometers to millimeters on the surface of the aluminum single crystalline plates under restricted cyclic tension. The self-similar systems of crossing bands that create the grid-like ordered structures on different scales are assumed to be clear manifestation of their self-organization. The self-organization of these grid-like structures is assumed to be inevitably related to the crystal structure defects (dislocations, point-like defects and their ensembles). The model is proposed for explanation of 2-dimensional rectangular "tweed" and 3-dimensional rhombic "pullover" pattern formations which are related to cooperative arrangement of crystal structure defects.en620conference paper