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作 者:Risheng Pei Sandra Korte-Kerzel Talal Al-Samman
机构地区:[1]Institut fur Metallkunde und Materialphysik,RWTH Aachen University,D-52056,Aachen,Germany
出 处:《Journal of Materials Science & Technology》2020年第15期257-270,共14页材料科学技术(英文版)
基 金:financial support from the Chinese Scholarship Council (CSC)。
摘 要:Commercial purity as-cast magnesium was hot rolled and subsequently annealed at different temperatures in order to investigate its grain growth behavior and link it to the texture evolution.Annealing at an intermediate temperature of 220℃ gave rise to abnormal grain growth with a few grains reaching a grain diameter 10 times larger than the mean.Increasing the annealing temperature to 350℃ yielded normal grain growth.Both types of grain growth revealed a strengthening of the(0001) <11-20> texture component.It is hypothesized that a dislocation density gradient after recrystallization grants(0001) <11-20>grains a size advantage during early stages of growth.The type of growth will be,however,determined by the mobility of the present grain boundaries and triple junction drag,which are strongly dependent on the annealing temperature.The above hypothesis of the interplay between these parameters was explored through curvature-and re sidual dislocation-density-gradient-driven grain growth simulations using a formerly developed level-set approach.The simulation outcome suggests that application of such a modeling approach in microstructure studies of magnesium can provide valuable new insights into the problem of grain growth and associated texture evolutio n.
关 键 词:Pure magnesium Grain growth TEXTURE Dislocation density gradient Level-set modeling
分 类 号:TG146.22[一般工业技术—材料科学与工程]
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