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作 者:张景新[1] 张奎[1] 刘国钧[1] 徐骏[1] 石力开[1]
机构地区:[1]北京有色金属研究总院国家有色金属复合材料工程技术研究中心,北京100088
出 处:《中国有色金属学报》2000年第4期511-515,共5页The Chinese Journal of Nonferrous Metals
基 金:国家"8 63"计划资助项目!( 715 -0 0 9-0 12 0 )
摘 要:半固态材料具有非枝晶固相晶粒均匀分散悬浮于液态基体中的特殊结构。提出了半固态材料中非枝晶组织的形成机制 ,即“晶粒漂移和混和抑制机制”。在电磁搅拌引起的强烈混和对流作用下 ,熔体的动态凝固过程不同于常规铸造时的静态凝固过程。混和对流作用改变了熔体中的传热和传质过程 ,从而决定了凝固组织。晶粒漂移作用极大地增大了非均匀形核率 ,从而细化晶粒 ;混和抑制作用则改变了晶粒生长形态 ,使晶粒在各个方向上可以较为均匀地长大 ,具有规则圆滑的形貌 ,成为非枝晶组织。The microstructure of semi solid metal comprises non dendritic solid phase grains suspended in liquid matrix, which is the key technological foundation for semi solid processing. In this paper, the formation mechanism for non dendritic structure in semi solid metal is proposed, namely mechanism of particle drift and blending compressing. Under vigorous convection caused by intense electromagnetic stirring, the dynamic solidification process of melt is quite different from that of conventional casting which is relatively static. The transferring of heat and mass during solidification is greatly changed by vigorous convection, and determined the microstructure. Particle drift greatly increases the heterogeneous nucleation and so refines the grains; Blending compressing changes the growing morphology of primary grains and makes grains grow relatively uniformly in all directions into near globular shape, and results in non dendritic structure.
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