RISS 검색 - 국내학술지논문 상세보기

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다국어 초록 (Multilingual Abstract)

Microstructure evolution, phase development and mechanical property of AZ80 alloy cup with various processing temperatures(573 K, 613 K, 653 K) and rotating revolutions (N = 0, 5, 50, 100) during rotating backward extrusion (RBE)were explored. The study founded that reducing deformation temperature or increasing revolution could promote the grainrefinement and DRX proportion. And the sample deformed at the condition of 573 K and N = 100 exhibited the best grainrefinement effect (grain size was 2.5 μm, DRX ratio was up to 99.01%). The bulk eutectic phase existed at all deformationtemperatures, while the dynamic precipitation was only precipitated at temperature of 573 K and 613 K. Increasing thedeformation temperature or revolution could reduce the proportion of the second phase. And an increase in revolution or areduction of temperature would reduce the average size of second phase, due to the phase could be broken by large strainand resolved with elevated temperature. Moreover, increasing the revolution and deformation temperature could promotethe texture weakening, which would be contributed to the occurrence of new recrystallization grains with random orientationand the activation of non-basal slip system. The mechanical property of microhardness was significantly improved withrotating revolution increasing and deformation temperature decreasing. Supported by the grain refinement and dispersionstrengthening, the sample deformed at condition of 573 K and N = 100 achieved maximum hardness values of 96.3 HV.