Yu Huanwei1, Yang Mingsheng2, Zhang Tianqing2, et al. Effects of RE on the Primary Si Phase in A392 Alloy with P-RE Mixed Modification[J]. Special Casting & Nonferrous Alloys, 2008,(6):480-484.
Yu Huanwei1, Yang Mingsheng2, Zhang Tianqing2, et al. Effects of RE on the Primary Si Phase in A392 Alloy with P-RE Mixed Modification[J]. Special Casting & Nonferrous Alloys, 2008,(6):480-484.DOI:
P-RE复合变质对A392合金中初晶硅的影响
摘要
通过SEM、XRD等分析手段研究了A392合金的P-RE复合变质效果
重点研究了RE元素在A392合金中的形态、分布及其对初晶硅的细化变质机理。结果表明
使用0.08%的P、1.1%的RE复合变质时效果最好
初晶硅平均直径达到19.4μm。RE能在P细化的基础上进一步细化初晶硅
可能是因为RE在Si生长界面前沿富集
阻碍Si原子的扩散
加大了成分过冷
使其生长界面呈现不稳定状态
限制了初晶硅的长大。过量的RE会导致合金中出现大量的RE富集物
不但会降低初晶硅细化效果
而且还降低合金的力学性能
因此
采用P-RE复合变质时
需要严格控制RE含量。
Abstract
A392 alloy with P-RE mixed modification was investigated by SEM(scanning electron microscope)and XRD(X-ray diffraction)
focusing on morphology and distribution of RE element in A392 alloy as well as refinement mechanism on primary Si phase.It is revealed that the primary Si phase can be obviously refined with 0.5%
1
.5% RE and P mixed modification
in which the average grain size of primary Si phase reaches up to 19.4μm with 0.08% P and 1.1%RE mixed modification.The RE element can enrich on the growth interface of silicon crystal to restrain the diffusion of Si in alloy melt and to increase the undercooling rate
resulting in destroying the stability of growth interface
which can be responsible for the refinement effects of RE on primary Si phase.However
excessive Re element can result in generation of amounts of RE-enrichment
which can not only be detrimental to the refinement effects on primary Si phase
but also deteriorate the mechanical properties of the alloy.So
the RE content in P-RE mixed modification should be strictly controlled.
关键词
A392合金P-RE复合变质初晶硅细化
Keywords
A392 AlloyP-RE Mixed ModificationRefinement of Primary Si Phase
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