A second-order phase-transformation of the dislocation structure during plastic deformation determined by in situ synchrotron X-ray diffraction

In situ X-ray diffraction peak profile analysis during plastic deformation in [0 0 1] oriented copper single crystals was carried out using synchrotron radiation. Characteristic changes of the hardening coefficient indicate that a transition occurs from stage III to stage IV which has been observed for the first time in a single crystal under low temperature deformation conditions. The long-range internal stresses, the dislocation arrangement parameters and the fluctuations of the dislocation density show nonmonotonous changes at this transition suggesting that the dislocation structure, especially within the cell-wall regions, reveals a second-order phase transition. A microscopic dislocation model is introduced which not only illustrates the break of symmetry, but also describes well the development of new grains (“fragmentation”) during plastic deformation.