Abstract:The polycrystalline samples of pure Cu (99.9%, mass fraction) were processed at room temperature by equal-channel angular pressing (ECAP). The microstructure and its changing mechanism after ECAP were investigated by X-ray diffraction (XRD) and electron backscattered diffraction (EBSD). The results indicate that when the pure copper is extruded by route A, with the increase of strain, the original  texture decreases coupled with the grains refinement, and the distribution uniformity of copper is improved. With the increase of the fraction of high-angle grain boundaries (HAGBs), the peak of misorientation moves to the typical value (40°), gradually becomes normal distribution, and the misorientation gradient decreases. The formation of texture shows a texture fluctuation effect when ECAP is a dynamic process, the direction and strength of which are closely related to the strain of the material. The texture fluctuation effect is the integrated reflection of crystal structure，grain boundary character, aggregation state at a certain temperature and under the action of forces. The external force acting on crystal class then makes the segregation orientation change, in the process of internal stress transmited on the neighboring grain boundaries, the aggregation state is broken, which cause the new texture of the material interior to vanish or appear.

Key words: equal channel angular pressing; electron back-scattered diffraction; grain orientation; grain boundary misorinetation distribution; texture fluctuation