期刊
JOURNAL OF MATERIALS SCIENCE
卷 45, 期 17, 页码 4778-4789出版社
SPRINGER
DOI: 10.1007/s10853-010-4595-0
关键词
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Based on the concept of work-hardening for fcc metals, the commercially pure aluminum AA1070 (soft annealed) and the aluminum alloy AA6060 (peak-aged) were investigated. Equal-channel angular pressing (ECAP) was used to introduce very high strains and an ultrafine-grained microstructure. Compression tests were performed in a wide range of strain rates between 10(-4) and 10(3) s(-1) subsequently. The results show that strain path and the corresponding dislocation structure are important for the post-ECAP yielding and the following hardening response. Furthermore, the precipitates of the alloy clearly constrain the interactions of dislocations in work-hardening stage III-causing lower strain rate sensitivity and retarding the process of grain refinement as well. If compared to the pure aluminum, the precipitates avoid hardening in stage V where an additional rate and temperature-dependent effect contributes-supposedly caused by the interaction of deformation-induced vacancies and dislocations.
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