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作 者:杨龙 代敏 车云 门三泉 李祥 YANG Long;DAI Min;CHE Yun;MEN Sanquan;LI Xiang(Guizhou Huake Aluminum Materials Engineering Research Co.Ltd.,Guiyang 550014,China)
机构地区:[1]贵州华科铝材料工程技术研究有限公司,贵州贵阳550014
出 处:《铸造技术》2023年第3期268-273,共6页Foundry Technology
基 金:贵州省科技计划项目(黔科合成果[2021]一般112);贵州省科技计划项目(黔科合平台人才[2020]5022)。
摘 要:本文研究了5A83铝合金均匀化退火工艺,并探索了不同温度条件对其微观组织及性能的影响。在退火时长为15 h的情况下,分别观察了350、400、440、470、485、540℃6种不同退火温度下的显微组织变化,测量了其晶粒尺寸与硬度。结果表明,β相和Mn相交互作用的特征为:当退火温度低于400℃时,β相的回溶与过饱和Mn相的析出同时进行,后者对晶粒粗化的作用掩盖了前者对晶粒的细化作用;当退火温度高于440℃时,Mn相的回溶对晶粒细化发挥主导作用,对反常态(随着均匀化退火温度升高,基体硬度先下降后上升)给出了合理解释,并认为485℃是最为理想的退火温度。The homogenization annealing process of 5A83 aluminum alloy was studied to explore the effects of different temperature conditions on its structure and properties.Under the condition of an annealing time of 15 h,the microstructure evolution at different annealing temperatures of 350,400,440,470,485 and 540℃ was observed and the grain size and hardness were measured.The results show that the interaction between the p phase and Mn phase is characterized as follows:when the annealing temperature is lower than 400℃,dissolution of the B phase and precipitation of the supersaturated Mn phase occur simultaneously,and the coarsening effect of the latter on the grain size conceals the refining efiect of the former on the grain size.When the annealing temperature is above 440℃,the redissolution of the Mn phase plays a leading role in grain refinement.A reasonable explanation is given for the abnormal state(the matrix hardness decreases first and then increases with increasing homogenizing annealing temperature),and 485℃ is the most ideal annealing temperature.
关 键 词:5A83铝合金 工业化生产 均匀化退火工艺 组织性能
分 类 号:TG156[金属学及工艺—热处理]
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