Abstract:
The results of experimental studies of changes in the structure, microhardness, and wear resistance of the
AMG6 aluminum alloy during equal channel angular pressing (ECAP) are presented in this work. The evolution
of the fine structure and the formation of secondary phases in the AMG6 alloy during ECAP were studied.
The dark-field image of the structure of the AMg6 alloy in the matrix reflex showed the splitting of the
material into small disoriented fragments of about 0.5 μm in size with a small-angle disorientation boundary
(about 2–5°). Optimal method and modes of ECAP of the AMG6 aluminum alloy were selected of the bases
of experimental research, which make it possible to obtain a workpiece with enhanced tribological and mechanical
characteristics. It was established that the most intensive grinding of the grain structure in the AMG6
alloy occurs at ECAP-12 at a channel angle intersection of 120°. It is shown that with a decrease in grain size,
the microhardness of the alloy AMG6 after ECAP increases by 4 times, compared with the initial state.The results
of the test samples for abrasive wear showed a decrease in mass loss after 12 passes of ECAP, which indicates
an increase in the wear resistance of the alloy AMG6 by 13–14 %, compared with the initial state.
